Abstract Book
AIHce 2015 Abstract Book May 30 – June 4, 2015 Salt Lake City, UT | Salt Palace Convention Center www.AIHce2015.org www.AIHce2015.org 1 AIHce 2015 Abstracts AIHA®: The viewpoints, opinions, and conclusions in the presentations, sessions, and discussions at AIHce have not necessarily been approved or endorsed by AIHA® or ACGIH® and do not necessarily reflect those of AIHA® or ACGIH®. NIOSH: The findings and conclusions in the National Institute for Occupational Safety and Health presentations have not been formally disseminated by the National Institute for Occupational Safety and Health and should not be construed to represent any agency determination or policy. PO101 Respiratory Protection I Monday, June 1, 2015, 10:30 AM - 12:30 PM SR-101-01 Using Chemical Challenge Breakthrough Data and Simple Models to Establish and Support Respirator Change Schedules B. Quarles, Assay Technology, Livermore, CA; C. Manning, Assay Technology, Livermore, CA Objective: A respirator change schedule is the part of the written respirator program which states how often cartridges should be replaced, and what information was relied upon to make this judgment. A cartridge’s useful service life is equivalent to the length of time it provides adequate protection from harmful chemicals in the air. The service life of a cartridge depends upon many factors, including environmental conditions, breathing rate, cartridge filtering capacity, and the amount of contaminants in the air. In rule 29CFR 1910.134, and summarized on its website, OSHA suggests that there are three ways to generate a valid respirator cartridge change schedule: (a) Laboratory Testing, (b) Manufacturer’s Recommendations; (c) Math Model such as the OSHA Advisor genius. Lab testing is the first of the three methods recommended by OSHA, as it is would be expected to be the most accurate. However, it is the least popular, because of the perception that it will be more expensive than other methods. The objective of this work was to develop a method for efficient economical prediction of service life from a minimum number of laboratory tests. Methods: Since the cost of lab testing may approach $1,000 per day, testing for longer than one day may be seen as too costly. Where it is desired to validate a service life longer than one day, we developed a procedure for extrapolation of data from lab tests using higher agent concentrations than the levels anticipated in actual use. This strategy led to shorter breakthrough times allowing several tests to be performed within one day. Results: Using this approach, the investigators were able to plot log [Challenge Level] versus log [Breakthrough Time] to obtain a line that could be extrapolated to obtain a projected 2 AIHce 2015 | May 30 – June 4 | #AIHce breakthrough time at the expected maximal concentration of agent present in a real-world environment. Conclusions: Reasonably linear plots allowing accurate extrapolation were obtained for several different challenge agents, so we conclude that this procedure is applicable to typical situations. By collecting multiple data points within one day instead of over more than one day, the economic impact on the end user for using lab testing for prediction of service life is reduced. The method does have the limitation that it may not be applicable in situations where the mechanism of agent removal by the respirator cartridge is other than physical adsorption or chemisorption. SR-101-02 Determination of the Service Life of Air-Purifying Respirators against 2,3-Pentanedione J. Parker, NIOSH, Pittsburgh, PA Objective: 2,3-Pentanedione is a diketone used as a synthetic flavoring agent and aroma carrier. It has a buttery taste and smell and is structurally very similar to diacetyl (2,3-butanedione). 2,3-Pentanedione and diacetyl have been implicated in causing pulmonary disease in workers handling these compounds. The objectives of this study are to evaluate the performance of air-purifying organic vapor / P100 respirators against 2,3-pentanedione and to compare experimental data with service life data from a similar study performed by NIOSH in 2009 against diacetyl. Methods: Service life testing was performed at NIOSH-NPPTL laboratories in Pittsburgh, PA, using a methodology similar to the techniques employed for certification testing of gas /vapor respirators. Photoacoustic infrared detectors were used to measure upstream and downstream concentrations. Testing was performed at concentrations of 500 to 890 parts per million by volume (ppmv), and at 50% relative humidity and approximately 25 degrees C. Results: Results are presented and compared for three different makes and models of NIOSH approved air -purifying respirators tested against 2,3-pentanedione. It was found that organic vapor / P100 air-purifying respirators have a service life of 150-240 minutes versus 2,3-pentanedione at concentrations of 500-890 ppmv. Data is also presented concerning impurities found in the reagent and how this affected the service life results. Conclusions: Conclusions of this study are that NIOSH approved organic vapor / P100 air-purifying respirators are capable of providing respiratory protection against 2,3-pentanedione. Proposed maximum use concentrations for air-purifying respirators used for protection against diacetyl and 2,3-pentanedione will be discussed. These are based on the NIOSH Recommended Exposure Limits for 2,3-pentandione and diacetyl that were proposed by NIOSH in 2011 in the external review draft of the “NIOSH Criteria for a Recommended Standard for Occupational Exposure to Diacetyl and 2,3-Petanedione.” SR-101-03 Paper-Based Optical Sensor as an End-of-Service-Life Indicator for Hydrogen Cyanide L. Greenawald, CDC/NIOSH, Morgantown, WV Objective: In an occupational or military environment, an airpurifying respirator is required when breathing-air is polluted by harmful contaminants. However, it is difficult for the user to identify when the canister becomes saturated and ceases to provide adequate protection to the user. The objective of this research is to develop an inexpensive active end-of-service-life indicator (ESLI) to optically detect hydrogen cyanide gas (HCN) before it reaches the user’s breathing zone. ESLIs more accurately allow the respirator user to know when a canister must be replaced. Methods: Cobinamide (Cbi), a Vitamin B12 derivative, is known to bind two cyanide ions (CN-) with high affinity. When binding of two CN- occurs, a violet color rapidly persists with a corresponding peak observed in the visible region on an absorbance spectrum. An optimized concentration of Cbi solution was adsorbed onto paper. The Cbi-doped paper was placed into a holder that allows for diffusion of HCN. A bifurcated fiber optic was connected to the sensor holder, along with corresponding light source and spectrometer. A gas flow system was designed to deliver known concentrations of HCN to the sensor. When HCN diffuses into the pores of the Cbi-doped paper, optical-based time measurements were made by monitoring the absorbance at a specific wavelength to detect low levels of HCN. The sensor holder was then externally connected to a commercial CBRN canister at approximately 90% saturation volume so detection could be made before breakthrough occurs. Results: A prominent absorbance peak exists when the Cbipaper sensor is in the presence of various concentrations of HCN gas. Calibration plots were performed. 5 ppm HCN can be detected in 2 minutes. Percent relative humidity levels ranged from 25-80% to determine the effects of the sensor’s ability to detect low levels of HCN in various simulated climates. When the sensor and associated electronics were externally connected to the canister, HCN was flowed through the canister at 32 and 64 lpm. The Cbi sensor detects HCN at an appropriate time before breakthrough occurs. of 4.7 ppm. Ultimately, a low-power LED light source, compact spectrometer and paper sensor coupled to an optical fiber will be integrated to a CBRN canister to detect breakthrough of HCN gas and ESL of the canister. SR-101-04 Effects of Air Temperature on Efficiency and Service Life of Air Purifying Chemical Respirator Cartridges Tested Against Sulfur Dioxide and Ammonia M. Parham, Scott Safety, Monroe, NC Objective: Determining an accurate change out schedule for respiratory cartridges is a critical part of any well written respirator program utilizing filtering respiratory protective devices. The service life of any cartridge is dependent upon many factors such as environmental conditions, breathing rate, and contaminant concentration. Where possible it is widely recommended to make use of math models, manufacturer’s recommendations, and/or experimental tests. While experimental tests are considered the more accurate approach, it is typical that these tests are conducted at ambient temperature and at higher concentrations than typically encountered in the field. Math models and those models used by manufacturers typically make corrections for temperature however the basis of these corrections are not always clearly communicated or appropriate for chemisorbed contaminants such as sulfur dioxide and ammonia. Methods: Air purifying chemical respirator cartridges with differing types of impregnated activated carbon were laboratory tested against sulfur dioxide and ammonia at ambient and elevated temperatures (up to 50°C) as received (ambient temperature) and pre-equilibrated to elevated temperatures. Filtering efficiency (initial penetration) and service life time were captured for typical certification test concentration and concentrations more in line with typical air purifying respirator use. Results: For sulfur dioxide, temperature effect was found to be not significant at the higher concentration but some evidence of decreased capacity was observed at lower concentration. Ammonia service life was directly affected by temperature with higher reductions observed for filters equilibrated to the higher elevated temperature. In both cases departures from predicted math model behavior was observed. Conclusions: The findings of this study support the importance of testing cartridges, if possible, under conditions similar to expected use. They also identify areas for future research in service life modeling and suggest that higher concentrations are not always design limiting when considering use scenarios. Conclusions: The respirator user will be notified when the concentration of HCN reaches its NIOSH recommended exposure www.AIHce2015.org 3 CS-101-05 Respirator Cleaning Methods: An Overview of Primary Respirator Cleaning Requirements and Methods Currently Used D. Stein, 3M, St. Paul, MN Situation/Problem: A significant but often deemphasized aspect of an effective respiratory protection program is cleaning. The decontaminating, cleaning and sanitizing of respiratory protection devices is important to help prevent secondary exposure to contaminants. Contaminant inhalation as well as skin contact can result from ineffective cleaning procedures. Additionally, basic respirator function can be adversely affected by a lack of thorough cleaning and post cleaning inspection procedures. Cleaning methods based on manufacturer’s instructions are typically implemented with hand washing and drying, while some employers may determine to run systematic cleaning departments with or without cleaning machines and/ or cleaning services. This is based on the variety of options available in the market for respirator cleaning and the needs of the employer. Resolution: This presentation will provide an overview of the importance of respirator cleaning, regulatory requirements related to respirator cleaning, and the breadth and depth of respirator cleaning methods present in today’s industry. Results: When done, attendees will understand: - Importance of cleaning - Regulatory Requirements - Breadth and depth of types of respirator cleaning Lessons Learned:Lessons Learned: The importance of proper cleaning techniques for respirators, regulatory requirements for the issue, and awareness of industry practices in respiratory protection programs will be delineated. PO102 Assessment, Evaluation and Control of Indoor Environmental Issues Monday, June 1, 2015, 10:30 AM - 12:30 PM CS-102-01 Federal Post-Disaster Indoor Environmental Pollutants Guidance W. Friedman, HUD, Washington, DC Situation/Problem: Several federal agencies, including EPA, HHS (CDC and NIEHS), HUD, and DOL have issued guidance on rehabilitation and remediation techniques for homeowners. Because of their differing agency authorities, missions, technical expertise, and organizational experiences, such guidance differed from agency to agency. This became significant after Hurricane Sandy, when the public (including industrial hygienists and environmental professionals) sought guidance on how families should address indoor environmental quality issues after the disaster. Resolution: The federal Hurricane Sandy Rebuilding Strategy established the Indoor Environmental Pollutants Work Group with the charge that FEMA, EPA, HUD, and HHS issue consolidated guidance on remediation of four indoor air pollutants: mold, lead, radon, and asbestos. The Work Group invited OSHA to join, which it did. The Work Group assembled technical experts from its agencies to review their existing guidance and guidance, recommendations and standards 4 AIHce 2015 | May 30 – June 4 | #AIHce from other government agencies (international, federal, state and local), standards organizations, and nongovernmental organizations, to provide the basis for developing consolidated guidance documents regarding each of the four pollutants. Results: The Work Group identified commonalities in the agencies’ guidance, and built upon them to harmonize differences on remaining subjects, reflecting state of indoor environmental quality science and engineering. For each pollutant, the Work Group developed a pair of 4-page plainlanguage guidance documents, one for each of two sets of target audiences: homeowners, and local community development and health groups; and contractors and consultants, with the latter documents more operational. The Work Group engaged communications and outreach professionals from its start to ensure that language and graphic styles were appropriate, and to design the guidance’s outreach plan. Lessons Learned:Lessons Learned: 1: The different agency approaches could be harmonized, motivated by the agencies recognition that it had proved unnecessarily difficult for the users of their guidance to reconcile them in the field after a disaster. 2: The information gained from Hurricane Sandy specifically is applicable to the broader range of disasters to come. 3: Engaging communications and outreach professionals from its start increased the effectiveness of the guidance and its outreach. SR-102-02 Assessing the Effectiveness of Air Duct Cleaning on Indoor Environmental Quality at a Large Laboratory Facility J. Archer, US EPA, Research Triangle Park, NC; A. Imler, Eastern Research Group, Inc., Morrisville, NC Objective: A large laboratory facility had a history of indoor environmental quality (IEQ) issues and workspace contamination because of visible particulate matter (PM) emanating from supply ductwork in offices and labs. The major source of particulate throughout the ductwork was determined to be from deterioration of metallic surfaces in the HVAC system. Because of these IEQ issues, a comprehensive duct cleaning project was initiated after other interim steps were not fully successful. To investigate the effectiveness of the duct cleaning, industrial hygiene sampling for airborne PM was conducted before and after duct cleaning. Methods: Real-time PM mass concentration (μg/m3) and particle counts (six size bins from 0.3 to 10 μm) were measured in representative offices and labs throughout a five-floor office/ lab wing. Continuous sampling was conducted over four-week periods prior to and after the duct cleaning in the same locations. Filter samples for PM2.5 were also collected at several of these sampling locations and analyzed gravimetrically with elemental analysis conducted by X-ray fluorescence. Outdoor PM levels were also simultaneously measured and controlled for in statistical analysis. Pre- and post-duct cleaning PM measurements were compared using repeated measures linear models (SAS v9.3). Results: The predominant airborne PM indoors and outdoors was observed to be in the 0.3 µm and 0.5 µm size bins. After controlling for outdoor PM levels, particle counts at these smaller particle sizes showed statistically significant decreases (p<0.05) indoors after duct cleaning. Additionally, particle mass concentration (Total PM) showed a statistically significant decrease (p<0.05) post duct cleaning. Elemental composition of the PM indoors was not significantly different between pre- and post-duct cleaning. Conclusions: There is little evidence in the literature documenting the effectiveness of air duct cleaning. In this study, however, the supply duct cleaning in a large laboratory facility produced positive results in terms of reducing airborne PM inside the building. Additionally, other tangible benefits resulted from the duct cleaning process including increased energy savings. There is also anecdotal evidence that duct cleaning has increased the comfort of building occupants and reduced health-related complaints that may have resulted from the PMcontaminated ductwork. CS-102-03 Mysterious Eye Illnesses in a Commercial Kitchen C. Haury, Golder Associates, Inc., Jacksonville, FL Situation/Problem: Eye irritation began in a commercial kitchen with one employee reporting that he went to see his physician and was provided a diagnosis of conjunctivitis. After his first day back to work, he again experienced eye irritation and was sent home. A few days later, three employees reported eye irritation and sought medical treatment. The three employees missed a day of work and the employer suspected, as did the physicians, that an eye infection was being spread in the workplace. The worker’s compensation insurer was put on notice regarding the eye illnesses as it began to appear that there may be an occupational connection to the eye illnesses. The eye irritation improved when employees were away from work but symptoms returned when they resumed work. Resolution: The kitchen was equipped with natural gas-fired cooking appliances and a variety of chemicals were used for sanitizing kitchen surfaces and dishes. A leak was found in the chlorine dispensing equipment for the dishwasher and repaired. Gas connections were inspected for all appliances and found to be leak-free. The HVAC system was assessed by a specialty contractor and found to be operating normally. Sources of contaminants in make-up air were investigated and no sources were found. A mold investigation did not find any mold growth or other microbial irritant. Air monitoring did not indicate airborne chlorine or formaldehyde. Eventually, all gas usage was discontinued and the dishwasher system was shut down. Even with these measures, employees continued to experienced eye irritation which was lessened with the use of goggles. Results: The source of the exposure was finally found after investigating an electronic flying insect trap. Lessons Learned:Lessons Learned: Industrial hygienists must use their specialized skills and investigate all sources of exposure to provide solutions. Occupational illnesses are often difficult to associate with workplace exposure and require concerted efforts. CS-102-04 IEQ Issues in a Newly-Constructed Laboratory Research Building M. Brinton, Weill Cornell Medical College EHS, New York, NY Situation/Problem: In January 2014, Weill Cornell Medical College (WCMC) began occupancy of a newly-constructed 438,000 net square foot wet-bench research laboratory building. Shortly after partial occupancy, researchers began complaining of strong “sewer-gas” odors in the building. When the construction management company was unable to identify the source, a team consisting of WCMC Environmental Health and Safety (EHS), WCMC Engineering and Maintenance, the construction manager and the design engineers was assembled to identify the source(s) and resolve the issue. Resolution: By reviewing the building’s mechanical systems and utilizing direct-read instrumentation (PIDs and electrochemical sensors), the odor was identified and traced to multiple sources (acid waste neutralization system and sewage ejector pits). The building mechanical systems (plumbing, HVAC and elevator) were also assessed to determine the pathways by which the odor was traveling. Final resolution required implementation of multiple administrative and engineering controls. Results: Levels of hydrogen sulfide gas (range of 500 - 900 parts per billion) and total volatile organic compounds (0.5 to 1.5 parts per million) were reduced in complaint spaces to a level below detection limits and the odor complaints were eliminated. Lessons Learned: Despite intense pre-construction review of the building’s design plan by a team that included an industrial hygienist, building mechanical systems can operate in unpredicted ways due to unforeseen factors. It is therefore important to assemble a team of knowledgeable parties to address these issues, review the project throughout its many phases and attempt to identify potential IEQ issues before they arise. In addition, special attention should be given to specialized building systems and their potential relationship to other building mechanical systems. SR-102-05 Characterizing Air Quality in Manned Habitats Using a Portable FTIR Spectrometer O. Monje, Air Revitalization Lab, Kennedy Space Center, FL; A. Caraccio, NASA KSC, Kennedy Space Center, FL Objective: The objective was to characterize the atmospheric composition of precursor manned habitats that house astronauts performing specific manned mission scenarios. Real time air quality data was collected during the Mission Operations Test of NASA’s Deep Space Habitat and during Mission 2 of the HISEAS Mars Analog Habitat. A portable FTIR was chosen because of limitations in crew time for conducting data collection and analysis. Methods: A portable FTIR (Gasmet DX4040) was used for sampling real time air quality during both missions. The FTIR was zeroed using nitrogen periodically to obtain a background spectra. This background spectra and reference spectra are used for determining the concentrations of the gases and no other calibration is required. A predetermined method collecting up to 25 gases was used. The spectra were collected with a wand using the internal sampling pump of the FTIR. Results were displayed and recorded in a PDA. The portable FTIR was held at four fixed locations (core lab, hygiene module, plant growth system, and crew quarters) during the Deep Space Habitat mission. Sampling lines were laid out and the FTIR was moved by the crew during the mission. During the HI-Seas Mission 2, the FTIR was used in portable mode and used to routinely monitor gas composition in 3 locations (trash bin, living room, and plant/lab). Results: Generally, changes in atmospheric composition and concentration were detected in different modules of the www.AIHce2015.org 5 habitats. During the DSH mission, spikes in CO2 and ethanol were associated with periods of crew exercise as a result of increased metabolism and by the use of ethanol wipes to clean up after exercise. Cooking events were characterized by spikes in pentane, ammonia, and ethylene. Ethanol spikes were also measured when the crew used the hygiene module. During the HI-Seas mission, ethanol was highest in the food/water/metal/ hygiene and in the paper/cardboard/plastic trash bins. Toluene was highest in the living room, where most carpeting was found. Conclusions: The portable FTIR was very useful for measuring the background atmospheric composition, as well as, sudden increases in gas concentrations associated with distinct crew activities. These data are useful for understanding the interactions between human activities, habitat construction, packaging, and the air revitalization system of the habitat. CS-102-06 Developing Effective Air Contaminant Bake-Outs S. Evans, CIH, CSP, P.E., MDE, Inc., Seattle, WA Situation/Problem: In a number of cases for projects, the scope of work included development of work plans to correct situations where volatile organic compounds or volatile non-organic compounds had “sunk” into fabrics, porous drywall and other porous and semi-porous surfaces within a residence. Detailed information on how to successfully bake-out a structure was not found in published literature. However, there were a few studies identified where select components that could be utilized to develop the appropriate method. The bake-out method needed to have the temperatures in the structure hot enough to drive the volatile substances out of where they “sank” into materials. However the method also had to consider minimizing ancillary damages such as weakening the glued furniture joints, and loosening adhesive under laminate countertops or wood or plastic veneers. Other concerns were excessive drying leading to cracks and checking of solid wood members. Resolution: The limited studies found that a temperature range centered on 120°F maintained for 72 hours was shown to be most effective. My workplans were developed to incorporate this criteria and were further enumerated to include requirements to minimize the potential for damage. The methodology utilized will be discussed in detail. Results: Once the bakeouts were conducted according to the workplans, the results in all cases indicated the absence of quantifiable concentrations of contaminants of concern were absent. Occupants that had been unable to live in the space due to negative reactions to the contaminants were able to live in the structures. The wallboard, carpet, etc. did not need to be replaced or wallboard painted. Lessons Learned: Introduction of the heated air in multiple locations is more effective than when introduced at one location. Utilization of a contractor experienced in conducting bakeouts with stringent criteria was critical; they need less handholding that those without experience. Also, in addition to using recording temperature/humidity meters, a handheld digital temperature “gun” was utilized to verify temperature in every room. However, the results of a gun can vary depending on the color of the wall surface and distance from the target. A portable target (even a piece of paper) should be fastened to surfaces and the distance to the target marked to standardize the readings. Also, I need to write a paper on my multiple studies to ease the dearth of references available on bake-outs to others. 6 AIHce 2015 | May 30 – June 4 | #AIHce PO103 Characterizing and Communicating Past, Present and Future Risk Monday, June 1, 2015, 10:30 AM - 12:30 PM CS-103-01 Characterizing Risk at an Industrial Site from Leaking Underground Storage Tanks Containing Diesel Fuel J. Persky, ENVIRON International Corp., Chicago, IL; F. Boelter, ENVIRON International Corp., Chicago, IL; S. Song, ENVIRON International Corp., Chicago, IL; B. Schnorr, ENVIRON International Corp., Chicago, IL Situation/Problem: In a newly industrialized country, an activist filed a complaint with the local agency alleging that a facility is “a living source of contamination and that the workers received, during their workday, emissions of toxic gases coming from the subsoil.” This complaint was based on publically available reports related to site investigation and remediation work. The reports contained relevant technical errors and characterized risk using an approach which was inherently improper. We revisited the basis of the risk assessment which precipitated misunderstanding, anxiety, and outrage in the community and workforce. Resolution: A review of the RA and air sampling data inside the subject building indicated there is no significant risk to workers. The predicted indoor air concentrations were unrealistically high due to mathematical errors and compounded by the use of conservative assumptions to develop site remediation objectives. Revision of the RA models using realistic parameters demonstrated that theoretical risk did not exceed the regulatory risk criteria. Actual air sampling data confirmed the unfounded risk characterization regarding indoor air concentrations of petroleum hydrocarbons in the building. Results: The RA review noted a number of conservative assumptions or incorrect model inputs. Corrections included 1) the use of Raoult’s law, 2) actual floor slab thickness, 3) lack of visible cracks in the floor slab, 4) air change rates, and 5) employee occupancy durations <<8-hours/day. The results still represented a conservative scenario but showed that the predicted maximum indoor air concentrations were at least two to three orders of magnitude lower than those predicted in the original RA. The cumulative cancer risk for a hypothetical workday with lifetime exposure to the predicted maximum indoor air concentrations was 2x10-9. Lessons Learned: A well-intentioned but flawed risk characterization can create problems where none actually exist. It is critical to understand the context within which a RA is prepared and to scrutinize the basis of the assumptions when looking to apply the risk findings to alternative objectives. RAs which are developed using hypothetical scenarios to guide site remediation efforts are fundamentally different than RAs purposed to evaluate actual risk to workers. Conservative and unrealistic estimations of G, Q, and t can lead to exaggerated and unrealistic estimates of exposure or dose. CS-103-02 A Qualitative Approach for Determining the Likelihood of PCBs in Manufactured Products aboard Maritime Vessels M. Plisko, Environmental Profiles, Inc., Columbia, MD; J. Spencer, Environmental Profiles, Inc., Columbia, MD; P. Fabian, Environmental Profiles, Inc., Columbia, MD Situation/Problem: Prior to 1980, some products used in the shipbuilding industry contained polychlorinated biphenyls (PCBs) and were installed as shipboard components during new vessel construction. The manufacture and use of PCBs in the US was prohibited in 1979, however the US EPA has suggested that products containing PCBs could have been accidently installed aboard vessels constructed at US shipyards from 1980 to 1984. Many vessels constructed during this time are nearing or have already surpassed their expected service lives, and will likely be sold for recycling or repurposing. According to EPA, vessels with manufactured items containing ≥50 ppm PCBs are prohibited from being sold for export to other nations, whether intended for recycling or repurposing. Since many of these vessels are operational and seaworthy, destructive sampling to determine the presence of PCBs cannot be performed. Resolution: An investigative process was developed to determine the likelihood of whether manufactured items containing PCBs were either originally installed or presently remain on board cargo vessels constructed at US shipyards prior to and after 1979. The process consisted of four components including document and records review; complete visual inspection of the entire vessel; interviews of persons having specialized knowledge regarding the vessel’s design, construction and operation; and a search of available regulatory information. Results: The process was used to evaluate seven vessels built between 1975 and 1987. The results of the investigation revealed the presence of PCB-containing fluorescent lighting ballasts in three of the four older vessels (1975, 1978, and 1979) and potential for the presence of PCB-containing electrical cable in the oldest vessel (1975). There was no indication of manufactured items containing regulated concentrations of PCBs aboard the three newer vessels (1984, 1984, and 1987). The use of this procedure in each case satisfied the US EPA due diligence requirement for evaluating the presence of PCBs aboard vessels being offered for export. Lessons Learned: The lessons learned from the use of this procedure revealed that many products used in maritime construction that historically may have contained PCBs were not present due to regular overhaul, normal product replacement, and modernizations performed over the 25+ year lifecycles of the inspected vessels. CS-103-03 Communicating Exposure and Risk Concepts Regarding Railroad Maintenance and Repair Workers F. Boelter, ENVIRON International Corp., Chicago, IL; J. Persky, ENVIRON International Corp., Chicago, IL; D. Podraza, ENVIRON International Corp., Chicago, IL; W. Bullock, CSX Transportation, Jacksonville, FL Situation/Problem: Whether there is big data or small data, a challenging area for professionals is to determine how to effectively characterize the risk presented by the exposure and to convey this characterization in a way that has meaning to the stakeholder. For a particular set of past practice data, four broad groups of railroad stakeholders were identified as recipients of the risk characterization: 1) historical railroad workers, 2) current railroad workers, 3) railroad management, and 4) exposure science professionals. Resolution: Airborne asbestos exposures related to railroad maintenance and repair past practices was studied since no corresponding objective data was found in the published literature. Three scenarios were developed regarding the removal and handling of asbestos woven tape, historically used to lag pipes during the steam era as well as the dieselelectric era. A challenge arose regarding how best to fairly and effectively present the data and results given that the four broad groups of stakeholders had potentially different interests, different technical skills, and different ways of learning and processing information. Alternative ways of communicating the study results needed to be developed. Results: Sampling results over three days demonstrated the six 8-hr TWAs as well as the seventy-two 30-min task based ELs were less than the respective current OSHA PEL of 0.1 f/cc and 1 f/cc. The data was compiled, analyzed, and presentation options were prepared by numerical descriptive statistics, box and whisker charts, Bayesian Decision Analysis charts, hazard banding charts, and SAE/variance vs. PEL graphs. Each of the presentation alternatives had their own merits and ease of being understood by the four broad groups of stakeholders. Lessons Learned: An exposure assessment in support of a risk characterization needs to consider weight of evidence, a systematic review, analogies to existing data, implications of missing data, uncertainty, and transparency. No single method is the “best” method for presenting study data. The professional preparing a risk characterization needs to communicate risk concepts using a variety of tools such that the stakeholder understands the information and can make their own informed decisions. Policy needs to be based on evidence and not philosophy, science needs to be distilled and translated, and the message needs to be understandable and not watered down. SR-103-04 Russian Anthophyllite: Chemical Composition and Mesothelioma Potency Estimate A. Korchevskiy, J. Rasmuson, E. Rasmuson, Chemistry & Industrial Hygiene, Inc., Wheat Ridge, CO; M. Sanchez, RJLee Group, Inc., Monroeville, PA Objective: To characterize the mineral composition of a fibrous amphibole that was mined in the Russian region of Ekaterinburg and to estimate the potential pleural mesothelioma potency factor range for this mineral. Methods: A suspect amphibole asbestiform specimen was obtained in the Russian Federation where the mineral is on public display in a local park. Characterization of this specimen was accomplished using Transmission Electron Microscopy (TEM) employing select area electron diffraction and zone axis indexing, Mössbauer spectroscopy to determine the FeO to Fe2O3 ratio and electron probe micro-analysis (EPMA) for major elemental composition. Empirical modeling (Korchevskiy, Rasmuson, Rasmuson, 2014) based on chemical composition and lung biopersistence to determine a mesothelioma potency factor was accomplished. The general range of the determined potency was compared with implications from the literature, as well as an RM value range from the epidemiological information from the Ekaterinburg region in Russia. Results: The amphibole composition was determined to be asbestiform anthophyllite and based on morphology and chemical analysis, with average composition of 58% SiO2, 27% MgO, 2.3% Fe2O3, and 8% FeO. If the average half-life in the lung of the material is assumed to be 240 months (as for amosite), application of the empirical model yields an average mesothelioma potency of RM = 0.013 %/f/cc-year (95% CI 0.005, 0.029). Available data for mesothelioma incidence in the www.AIHce2015.org 7 community neighboring the mine suggests a slightly higher potency of 0.041 (95% CI 0.006-0.1), but there is no statistically significant difference between the estimates (P=0.77). Conclusions: Russian mining of anthophyllite asbestos was not well recognized as occupational and environmental hazards. In spite of the apparent closure of anthophyllite mining operations, its effect on mesothelioma mortality in the country should not be ignored. Moreover, scant data exists on anthophyllite potency factors. Utilization of the proposed empirical model (depending on chemical composition of fibers and lung half-life) yields acceptable results if compared to levels determined from epidemiological studies. CS-103-05 Modeling Work Effectiveness of Firefighters with Varying Shift Schedules S. Williams, V. McDonough, L. Racz, U.S. Air Force, Apo, AE Situation/Problem: The work effectiveness of firefighters and other shift workers has long been recognized as vulnerable to degradation with night and rotating schedules. Cognitive performance depends on an individual’s combined circadian and homeostatic processes. Those who work during other shifts and sleep during the day disrupt the balance between the homeostatic and circadian processes. These effects can have serious consequences among emergency workers such as firefighters with slowed reaction time, reduced ability to make decisions, and loss of situational awareness. Despite the risks, individuals tend to inaccurately assess the magnitude of their own vulnerability to fatigue. One approach to mitigating these effects is development and use of a Fatigue Risk Management System (FRMS). Since such a system is science based and data driven, the use of a model can help to predict performance as a function of sleep attained. One of these models, the Sleep, Activity, Fatigue and Task Effectiveness model, provides the algorithm used in the Fatigue Avoidance Scheduling Tool (FAST). Resolution: For 14 days, a total of 34 firefighters were given an anonymous sleep survey. These firefighters included those from two different 24-hr shift teams as well as those from conventional eight-hour shifts. They were asked to document their perceived quality of sleep as well as hours worked, any abnormalities with sleep, naps taken, and circadian rhythm synchrony. The data was then input into FAST which predicted the percentage effectiveness for each participant. Results: The data depicted an exponential decrease in effectiveness as the work week progressed. The benefit of strategic naps was reinforced by one of the 24-hr teams, where half of the team consistently napped. When personnel listed their perceived circadian rhythm peaks and troughs, most workers had a circadian rhythm synchrony. Extended hours on a regular basis impacted the homeostatic balance. This analysis gave leadership their first opportunity to see a subjective topic (fatigue) in an objective fashion. Lessons Learned: Identification of individuals at most risk for fatigue based errors is still subjective in nature and requires both a qualitative and quantitative approach to identifying appropriate fatigue countermeasures for certain military career fields. The use of a fatigue model can be an effective component in a FRMS in order to help manage sleep and work schedules effectively and improve work performance and safety. CS-103-06 Six Sigma Approach to Improving your Office Ergonomics Process T. Silva, Atlas Ergonomics, Grand Haven, MI Situation/Problem: Many organizations have been running an office ergonomics process for several years and have plateaued in performance. They do not know, with any level of confidence, what part of the process should be improved and to what level. Resolution: This presentation will look at two case studies and how each company utilized Six Sigma methodologies to improve their office ergonomics process: Case Study #1 – One of the nations’ largest financial institutions. Their process encompasses coverage of greater than 180,000 employees deployed over 5,500 individual locations across the country. Case Study #2 – One of the world’s largest, multinational professional services networks with a large percentage of the work population using hoteling stations and working remotely from client and home office locations. Results: The process provides a data driven approach to better measure program performance. It is a more standardized approach to evaluating and controlling ergonomic hazards, and offers significant reductions in errors in the office ergonomics process.. Lessons Learned: Learn when and how to use different Six Sigma methods to collect Voice of the Customer and determine Critical to Quality characteristics. Use process flow diagrams to document the flow of information in your office ergonomics process. Analyze root cause with Fishbone diagrams, brainstorm to develop process improvements and use FMEAs to prioritize improvements. Trial and test improvements in a Design of Experiment format before rolling out corporate wide. PO104 Hazard Prevention and Engineering Controls: Traditional and Modern Approaches Monday, June 1, 2015, 10:30 AM - 12:30 PM CS-104-01 Key Elements of Temporary Release Shelter Programs: Development and Implementation V. Aizenberg, ExxonMobil Biomedical Sciences, Baytown, TX Situation/Problem: Emergency response plans for most sites dealing with acutely hazardous chemicals often include Temporary Release Shelters (TRS) as part of the response. Enabling key personnel to safely manage the emergency is intrinsic to safe site operations. However, some sites simply designate buildings as TRS (also known as Safe Havens and Shelters-in-Place) without specific effort to test their efficacy (tightness) and developing corresponding management programs. Resolution: This presentation shares key features of a welldesigned and well-managed TRS program. These include: Design requirements for TRS HVAC systems and building envelopes; Testing of TRS building tightness (per ASTM E74111) as well as architectural and engineering pre-requisites for such testing; Periodic TRS testing and maintenance program, and Stakeholder engagement Results: Implementation of TRS programs of several buildings of various sizes (including before and after HVAC upgrades) will 8 AIHce 2015 | May 30 – June 4 | #AIHce be illustrated and discussed. These include large office and administrative buildings, medium-size control buildings and smaller security areas. Lessons Learned: Examples of appropriate TRS as well as erroneous TRS arrangements will be re-emphasized. Advice on efficiently establishing and maintaining TRS will be provided. CS-104-02 Approaches to Dust Control in Mining G. Joy, NIOSH Office of Mine Safety and Health Research, Pittsburgh, PA Situation/Problem: Miners are at elevated risk of developing pneumoconioses as a result of exposure to airborne respirable dust in their work. This exposure originates from the extraction and subsequent processing and handling of the mined mineral. For the period 2003 - 2012, the portion of compliance samples in the metal/nonmetal industry for respirable quartz exceeding the occupational exposure limit (OEL) by commodity was: metallic minerals 18%; nonmetallic minerals 16%; sand & gravel 12%; and stone 11%. In coal mines, the fraction exceeding the OEL for respirable coal mine dust was 5%, and the fraction exceeding the quartz OEL was 13%. Between 1990 and 1999, 2,407 deaths in the United States were attributed to silicosis; of those, occupation information was available for 881 deaths. For those 881 deaths, employment in the metal/nonmetal mining industry accounted for 15%, and the most common occupation recorded was mining machine operator. Resolution: Research by the U.S. Bureau of Mines – subsequently NIOSH – and many other organizations has identified feasible engineering controls for dust exposure in mining. These controls are extensions of the methods commonly used in non-mining industries with consideration of situations unique to mining. The primary methods applied are isolation and containment of the source and/or receptor, general and local exhaust ventilation, and application of water to prevent or suppress airborne dust. Regardless of the type of mineral pursued, similarities exist among the methods employed to recover and process it, permitting application of similar approaches to control dust. Results: Selection and design of controls in mining is complicated by the scale size, quantities, and volume of mining processes, but proceeds in the normal fashion. One difference in mining is that the dust to be controlled may be the product of the process. When this is the case, recovering the collected dust in a usable form is an important consideration. Information will be presented on approaches to dust control, with comment on control design and selection issues. Lessons Learned: Effective control of respirable dust exposure in mining is feasible in almost all situations through selection and application of appropriate engineering controls. As in all industries, sustaining initial control efficiencies requires an ongoing program of oversight and verification. SR-104-03 Use of Ventilation Fans for Reducing Worker Airborne Dust Exposures at a Steel Foundry in HaTay, Vietnam G. Croteau, University of Washington, Seattle, WA Objective: Establish effectiveness of using ventilation fans to reduce airborne dust exposures, determine effect on downwind exposure levels and develop best practice guidelines for utilizing this simple engineering control. Methods: The use of fans for reducing airborne dust exposure levels was assessed at a steel foundry located in an open sided building in HaTay, Vietnam. A paired sample experimental design was utilized. Task based personal exposure levels were determined with and without the use of ventilation fans in order to maintain spatial and temporal continuity and reduce the effect of changing work conditions. Work activities included mold breakdown, sand sieving, and metal grinding tasks. Worker exposure levels were determined using a direct reading dust monitor; area dust levels were also determined 2.8 and 5.5 meters downwind. The fans were assessed as they are typically used at this workplace. Results: A total of 11 paired task based samples (13 to 104 minutes in length) were obtained. A mean exposure reduction of 55.3% (SD 35.3%) was attained, based on 11 paired samples; a single paired sample indicated an exposure increase of 14.1%. Downwind dust levels (area samples) were 67% to 266% higher with the fan in use, with the exception of one of five paired samples. The fans, placed 1.5 to 10.0 meters from the worker, generated a mean air velocity of 142.5 meters/minute measured at the worker. The 0.6 and 2.6 kilowatt-hour fans had a mean volumetric flow rates of 133 and 269 cubic meters/minute. Conclusions: The study results demonstrate fans are an effective means of reducing worker exposure levels. However, downwind effects need to be considered. Ideally, fans should be directed towards the outside in open sided buildings and never towards other workers. A lower velocity (30 meters/minute at the worker), less turbulent air flow might provide more effective exposure control. SR-104-04 Self-Reported Use of Dust Controls in Stone Countertop Fabrication in High and Low Enforcement States M. Philips, J. Canary, University of Oklahoma Health Sciences Center, Oklahoma City, OK Objective: Fabrication of countertops from natural granite and quartz-based artificial stone has potential for serious overexposure to respirable crystalline silica if dust controls are not used. This study extended previous research on the prevalence of dry methods in granite countertop fabrication in Oklahoma to investigate whether dust controls were more commonly used in states with high levels of enforcement by occupational safety and health agencies. Methods: Intensity of enforcement in each state was determined by dividing the number of silica emphasis inspections in stone product manufacturing establishments (SIC 3281) between January 2008 and June 2013 by the state’s population. Pairs of states within the same region with strongly contrasting levels of enforcement were chosen for comparison: Minnesota (4.15 silica inspections per million population) vs. Michigan (0) and New Mexico (5.34) vs. Arizona (0.63). One city in each state was selected for a census of stone countertop fabrication shops. The cities in each pair of states were similar in population. A complete enumeration of all granite and quartz countertop fabricators in each of these cities was attempted using Internet searches. A survey of fabrication and housekeeping methods was administered over the phone to a qualified individual at each shop. Results: We identified 8 shops in Rochester MN, 3 shops in Ann Arbor MI, 11 shops in Albuquerque NM, and 15 shops in Tucson AZ. Shops in the low-enforcement states were significantly less willing to participate in the survey than shops in the highwww.AIHce2015.org 9 enforcement states (28% vs. 84% participation, p = 0.0003). Among responding shops in the high-enforcement states, 69% reported that every step in the fabrication process was performed mostly or entirely wet, compared to 40% of responding shops in the low-enforcement states. This result was not statistically significant. Fabrication methods reported for granite and quartz surfacing were nearly identical. it can be formed into nuggets or patties. As meat product is loaded into the batch mixer(s) along with liquid flavorings, it is necessary to inject liquid carbon dioxide into the meat mixture within the batch mixer. If this injection process is not properly contained/ventilated, excess carbon dioxide vaporizes and is released into the work room. Resulting exposures can exceed applicable exposure limits. Conclusions: Due to potential nonresponse bias, the relationship between degree of enforcement in a state and self-reported use of wet methods could not be determined. The reported prevalence of wet methods in the manufacturing of granite and quartz countertops in the high-enforcement states of Minnesota and New Mexico was much higher than the previously selfreported prevalence of wet methods in Oklahoma, a lowenforcement state. Resolution: Carbon dioxide levels were measured using an appropriate direct reading instrument. Employee exposures were measured using passive diffusion tubes. Based on the initial survey, excessive exposures were determined. Survey also identified sources of excessive exposures so that corrective actions could be considered and implemented. SR-104-05 Efficiency of Intact and Damaged HEPA Filters and their Gaskets under Different Flowrate and Pressure Drop Conditions F. Akbar-Khanzadeh, UT HSC College of Medicine, Toledo, OH; K. Smigielski, University of Toledo, Toledo, OH Objective: High efficiency particulate air (HEPA) filter, a main element of industrial or domestic ventilation systems, can be damaged during handling and installation. Then, the question is how the damage would alter the performance of the filter. This project was to evaluate HEPA filter capture efficiency of intact or damaged gaskets and filters. Methods: The filters (60 x 60 x 29 cm) for: (a) “gasket testing” used PTFE with one piece poured gasket; and, (b) “filter testing” used glass fiber, with a dove tail gasket. Poly Alpha Olefin particulate was used as aerosol challenge. Aerosol generators with specific nozzles were to generate known diameter (e.g., 0.3 µm) particles. A counter instrument was used to count the particles at the inlet and outlet of a custom designed filter housing. Each finally reported count was an average of 6 readings. Known diameter holes to the gasket and filter were created by using a set of standard cylinders. The gaskets and filters were tested within the filter housing at two system airflows (28.3x103 and 56.6x103 L/min) and two pressure drops (25 and 50 mm water gauge). Gaskets and filters were tested under following conditions: (1) best fit: no known gasket or filter leak, and (2) man-made holes: gaskets and filters with 6 sizes man-made holes of 0.5, 0.8, 1.6, 3.2, 4.8 and 6.4 mm diameters. Results: The best fit HEPA filter performed at capture efficiency of more than 99.99%. Particle leakage increased with the diameter of hole. However, at 0.5, 0.8 and 1.6 mm diameter holes the capture efficiency remained above 99.99%. At 3.2 mm hole the efficiency dropped to 99.98% and at 4.8 and 6.4 mm holes the capture efficiency dropped below the HEPA quality capture efficiency of 99.97%. Conclusions: The capture efficiency of HEPA filters remained above 99.97% at or smaller than 3.2 mm hole in either gasket or filter media. Additional tests are recommended to further verify these findings. CS-104-06 Carbon Dioxide Exposures at Meat Batching Operations M. Wiggins, Liberty Mutual Insurance, Lexington, SC Situation/Problem: Liquid carbon dioxide is used at meat product batching operation in order to cool the meat so that 10 AIHce 2015 | May 30 – June 4 | #AIHce Results: Initial measurements of process indicated that exposures can exceed the applicable exposure limits. After modifications are made to process, exposures were reduced to levels that were well below the applicable exposure limits. Lessons Learned: Excessive exposures at this operation were due to: Leakage of carbon dioxide gas into the work room due to excessive volume of liquid than could be removed by the exhaust ventilation system; Inadequate seal between the batch mixer lid cover on the top of the batch mixer hopper; and lack of control of flow and volume of liquid carbon dioxide into the batch mixer. Excessive exposures were corrected with the following process controls: Assure that the exhaust system is not clogged. (Carbon dioxide can sublime and deposit within the exhaust duct causing obstruction of the ducts and causing the exhaust fan to freeze; Assure a tight seal around the batch mixer during carbon dioxide injection; Control the volume, distribution and flow rate of the liquid carbon dioxide into the batch mixer to prevent excess volume of carbon dioxide in to the batch mixer. Control of flow rate and distribution of carbon dioxide allows carbon dioxide to be better absorbed by the batch (meat product). PO105 Advances in Construction and Confined Space Safety Monday, June 1, 2015, 10:30 AM - 12:50 PM CS-105-01 Personal and Area Monitoring for Airborne Concentrations of Methylene Diphenyl Diisocyanate (MDI) and 2-Ethylhexanoic Acid (EHA) during and after Application of Low Pressure Polyurethane Foam Insulation in a Residential Crawlspace J. Cikalo, Dow Chemical Company, Midland, MI Situation/Problem: The objective of the study was to determine personal exposures and area concentrations of Methylene Diphenyl Diisocyanate (MDI) and catalyst during and after application of a closed cell spray polyurethane formulation to the rim joist of a residential crawl space. Resolution: Industrial hygiene air monitoring was conducted using two different ventilation rates during two applications of spray polyurethane foam insulation in the crawl space of a residential home as a part of a product stewardship program. The crawl space was isolated from the other areas of the home by using a temporary barrier and ensuring that a separate source of makeup air was available. EPA and Center for the Polyurethanes Industry (CPI) Ventilation Guidance for Spray Polyurethane Foam Application, as well as the International Building code (IBC 2603.4) and International Residential code (IRC R316.4) principles were incorporated in the study. Results: MDI monitoring results were 16 ppb for each of the two personal samples while area samples ranged from 1.7 - 2.2 ppb during spraying. One hour after spraying, area samples for MDI were less than the detection limit of 0. 4 ppb. The results of area samples for EHA were less than the detection limit of 0.2 mg/m3 during spraying and at one hour after spraying. Lessons Learned: The results of the study will be used to enhance product stewardship practices associated with re-occupancy times following the application of low pressure spray foams. As per CPI (www.SprayPolyurethane.Org), some manufacturers recommend a one hour re-occupancy time following an interior two-component, low-pressure Spray Polyurethane Foam (SPF) kit application. CS-105-02 ANSI A10.49- The Control of Chemical Hazards in Construction M. Gillen, Retired from NIOSH, Washington, D.C.; S. Schneider, Laborers’ Health & Safety Fund, Washington, D.C. Situation/Problem: Health hazards have always taken a backseat to safety in construction. Most ANSI standards and OSHA standards address construction safety issues like fall prevention, even though far more construction workers are estimated to die from exposures to health hazards than from accidents. Resolution: Over the past few years the ANSI A10 committee which drafts voluntary standards for the construction and demolition industry decided to tackle this problem and develop a standard to help contractors address exposures to chemical hazards on their jobsites. The standard was finally completed in 2014 and affirmed by the A10 committee and ANSI. The standard combines control banding and pre-job planning approaches to help make it accessible to small and medium sized employers. Toxicity ratings are obtained using Safety Data Sheet (SDS). Hazard ratings and exposure potential are derived from various tables based on how substances will be used relying on known exposure factors (like the degree of enclosure). These ratings are then combined to determine the type of plan needed to control exposures: a basic plan for relatively low exposure and toxicity hazards, an intermediate plan developed by a “chemical hazard competent person” for more toxic materials with higher exposure potentials or an advanced plan developed by a qualified person (industrial hygienist) for the most highly toxic and high exposure situations. A separate similar analysis is done for task-generated exposures from existing materials on the site (e.g. renovation and demolition work). Results: This presentation will review the new standard and discuss its development. It is hoped that this standard will help contractors take a closer look at chemical hazards in their worksites and move them to reduce exposures and risk of disease. Lessons Learned: Health hazards in construction must be addressed in new ways such as voluntary (ANSI) standards. SR-105-03 An Evaluation of Commercially Available Portable Local Exhaust Ventilation for Welding Fumes in Construction: The Epilogue J. Meeker, University of Michigan, Ann Arbor, MI; P. Susi, CPWR, Silver Spring, MD Objective: Welding is an important and pervasive process in construction. Overexposure to welding fumes and various toxic constituents among construction workers has been documented. However, use of engineering controls in this industry is still not common. Our objective was to identify commercially available, portable, local exhaust ventilation (LEV) systems viewed considered viable by end-users (contractors and welders) and to evaluate their effectiveness. In previous years, we described the results of our first two evaluations. Here we present the results of the third evaluation and summarize and compare all three systems tested. Methods: As part of a larger project, an “Adoption of Innovations to Minimize (AIMS) Exposure to Dust and Fumes in Construction (AIMs)”, we assembled an industry partnership to select three commercially available, portable LEV units for welding fumes from among ten identified by researchers. Welding fume control effectiveness for both stainless steel (specifically hexavalent chromium [Cr VI], manganese [Mn] and nickel [Ni]) and carbon steel (specifically Mn and iron [Fe]) was assessed in separate randomized trials. Control vs. no control trial order was randomized to prevent systematic bias due to carryover exposures from one run to the next and other potential biases that might influence exposure levels. Static pressure was measured between each of the LEV-controlled trials several duct diameters downstream from the hood to assess air flow loss over time due to filter loading. Results: We used the criteria of a 50% reduction in metal fume exposures or a reduction to below the most current or relevant occupational exposure limit to determine effectiveness. All of the systems tested met our criteria for effectiveness using these criteria. However, neither reductions in concentrations of Cr VI and other metals (Fe and Ni) during stainless steel welding nor reductions in Fe during carbon steel welding were statistically significant. Air flow based on hood static pressure measurements ranged from 112 to 158 CFM. Conclusions: Effective LEV systems for welding fumes that are portable and practical for construction are commercially available. While HEPA filtration has been associated with reduced LEV air flow in extremely dusty construction operations, our data show that HEPA filtration for welding fumes is desirable and does not substantially reduce air flow. CS-105-04 Think and Act Locally: Promoting Use of Engineering Controls in Construction at the Municipal Level P. Susi, CPWR, Marlton, NJ; M. Goldberg, City University of New York, Emeritus, New York, NY; M. Weinstein, Florida International University, Miami, FL Situation/Problem: Masonry restoration work, and specifically tuckpointing, is associated with very high silica exposures. More than half of exposure measurements collected by OSHA during tuckpointing were greater than twice the National Institute for Occupational Safety and Health (NIOSH) Recommended Exposure Limit (REL) for respirable silica (US DOL, 2009). Despite high exposures, engineering controls for tuckpointing are still not often used. Although a proposed OSHA silica standard was published in 2013, a final standard is still pending. Here we examine increased use of local exhaust ventilation (LEV) for tuckpointing in Chicago some 15 years or more before a final standard is likely to be published. www.AIHce2015.org 11 Resolution: We conducted a case study to determine why and how use of LEV became more common for tuckpointing operations in Chicago. Key informants were interviewed, including a former OSHA area director, union leaders, and contractors. In addition, we reviewed archival data including municipal codes, specifications, training materials, articles and presentations describing and analyzing the use of LEV during tuckpointing. Results: Four groups played key roles in the adoption of LEV in the Chicago: federal OSHA, local government agencies (both regulators and major users of construction services), Tuck Pointers Local 52, and local masonry contractors. They were motivated by concerns for occupational, public and environmental health. Major reasons for use of LEV in Chicago were: 1) concern for worker health among OSHA, local unions and their signatory contractors; 2) increased regulation and enforcement at both the local and federal levels; 3) owners’ mandates that required use of LEV; and 4) the need to minimize dust complaints from building occupants and the resulting work stoppages. Lessons Learned: Beyond rule-making, OSHA may serve as an important catalyst in making an industry aware of a hazard and the means to control that hazard. However, local forces, both regulatory and market-based, may in some cases change industry practice more quickly and completely. The joint efforts of building trades unions, contractors and OSHA proved effective in addressing a pervasive hazard such as silica with effective and practical measures. Lessons learned in Chicago may inform efforts in other metropolitan areas where use of LEV for tuckpointing is less common. CS-105-05 Confined Spaces in Residential Buildings P. Bergholz, AMEC, Burnaby, BC, Canada Situation/Problem: A property owner/manager did not have a complete confined space program and inventory along with hazard assessment (HA) and entry procedure (EP) documents for all potential spaces. The property manager owns and or maintains upwards of 9,000 buildings, towers, low rise apartment buildings, condominiums and detached houses in the province of BC. As a result of an incomplete inventory, not all building managers were aware of potential confined spaces on the properties. Additionally, due to geography of some of the properties, the accessibility of gas detectors and rescue resources were also limited. Resolution: We were requested by the property owner/manager to update their program and inventory of confined spaces and prepare confined space HA and EP for residential buildings present throughout BC. Results: Of the 62 buildings that were inspected for confined spaces, 115 confined spaces were viewed, assessed and grouped together into a total of 8 similar type spaces (e.g., crawlspaces, sumps, etc.). Hazard assessments and EPs were completed for these grouped / similar type spaces. Training was also provided to a large number of employees. Of the non-confined spaces viewed, many observed spaces (e.g., crawlspaces) bordered on whether or not they meet the definition of a confined space according to local regulations. For precautionary measures, a HA and EP was prepared for non-confined crawlspaces which did not meet the classification of a confined space (the most common non-confined space entered). Controls were implemented for these non-confined spaces such as gas 12 AIHce 2015 | May 30 – June 4 | #AIHce testing and ventilation, and were utilized in a similar fashion, but to a lesser extent. Upon completion of the entire program, the property manager/owner implemented an online system to upload permits, and HA and EP for any spaces located in the inventory. Lessons Learned: Implementing controls to mitigate hazards inside confined spaces or even non-confined spaces (availability of gas detectors and confined space rescue services) can be problematic for large property manager/owners with properties existing over a large geographical area. Confined spaces were observed in several newly built residential buildings, which highlights the need for input from an industrial hygienist at the design stage of buildings, whenever possible. As a result of our work to date, there have been no minor/severe injuries known to have occurred during confined space entries. CS-105-06 Ventilation for Painting in Enclosed Spaces D. Chute, Atrium Environmental Health and Safety Services, LLC, Reston, VA Situation/Problem: Shipboard painting is often done in enclosed spaces. This work is difficult to ventilate for effective control of visibility, flammability and health hazards due to irregular spaces, limited access and egress and the distance between painting work and a satisfactory staging area for fans and blowers. There is a need to evaluate and control the effect of these variables under current work conditions. Resolution: This work included a series of air monitoring surveys, ventilation airflow measurements and data collection in four shipyards. The goal of this data collection and analysis was to fill information gaps and prepare qualified estimation guidelines for ventilation required to effectively control of airborne contaminants during shipboard painting in enclosed spaces. Results: Personal breathing zone and area air sampling was conducted for six different air contaminants including solvents, particulates and reactants. Six different coatings were applied during this testing, providing an excellent cross-section of the products currently used in the maritime industry. Brush and roll application was observed to be effectively ventilated with exhaust air drawn through flexible ductwork and discharged topside to the outdoors. Spray application was more problematic. Portable local exhaust ventilation was more effective for the control of breathing zone exposure than permanently-installed wallmounted systems. Lessons Learned: The participating shipyards were able to develop, demonstrate and apply specialized equipment, skills and methods to effectively install and operate fixed and temporary ventilation systems for painting in enclosed spaces. While the combination of temporary and fixed ventilation systems were observed to be generally effective, many key performance variables may change on a job to job or a daily basis. To respond to these changes, this work requires constant attention, adjustment, measurement and repair. Many dynamic variables could not be controlled consistently or predictably. SR-105-07 Characterization of Exposure to Silica and Dust during Demolition and Crushing Operations in Construction, with and without Dust Controls A. Bello, C. Mugford, S. Woskie, UMASS Lowell, Lowell, MA WITHDRAWN PO106 Exposure Assessment Strategies: Something for Everyone Monday, June 1, 2015, 10:30 AM - 1:30 PM SR-106-01 On the Accurate Estimation of the Benchmark Dose T. Mathew, University of Maryland Baltimore County, Baltimore, MD Objective: In industrial hygiene and environmental applications, the benchmark dose (BMD) is defined as the dose associated with a specified increase in the probability of an adverse health outcome. The probability will depend on relevant covariates and can be modeled using functions such as logistic regression, probit model, multi-stage model, etc. When binary dose-response data are available, the EPA’s benchmark dose software can be used for estimating the BMD, and for computing a 95% lower confidence limit (denoted by BMDL). The BMDL is of particular interest, since it can be used as a point of departure for developing occupational exposure limits (OELs). Likelihood based large sample theory is usually used for computing the BMDL. However, sample sizes are very often small, in which case the likelihood based BMDL will be inaccurate. Our objective is to explore alternative methodology for the accurate computation of the BMDL. Methods: The methodology that we shall explore for the accurate computation of the BMDL is an old an under-utilized approach in statistics, namely, the fiducial approach. The fiducial concept has undergone a recent revival, and is now recognized to be important in applications. The fiducial method can be easily adopted to the logistic regression model, probit model, etc. The fiducial methodology and its implementation will be explained for computing the BMDL. A bootstrap correction will also be explained for improving the accuracy for small samples. Results: Simulation results show that the proposed methodology does provide an accurate BMDL. Apart from simulation results, the methodology will be illustrated using the analysis of industrial hygiene data sets. Conclusions: A 95% BMDL computed using the likelihood based approach can have coverage probability significantly smaller than 95%, especially for small samples. This will result in a larger BMDL, giving the misleading conclusion that the BMD is larger than what it actually is. The proposed fiducial approach is thus preferable, since the BMDL so computed does provide the correct coverage. CS-106-02 Professional Judgment in Exposure Assessment (EA): How Low Do You Go? T. Morris, Morris Innovative IH & Safety Solutions, Cincinnati, OH Situation/Problem: IHs rely on many factors to guide us, especially professional judgment. When evaluating materials for an EA, professional judgment typically leads to the rejection of those at low levels (<1%) because it’s assumed there isn’t enough to pose a risk. This was reinforced by the HAZCOM standard which defined an untested mixture’s health hazards as those of the individual components at ≥1% and ≥0.1% for carcinogens. Cut-offs continue in the revised standard but OSHA still includes a requirement that any material/quantity be reported if it could pose a health hazard. Resolution: The 0.1/1% values have (for many) become de facto limits for SDSs and EAs. This coupled with professional judgment targeting the “primary” contaminants of a process have resulted in missed exposures to other materials. Some may be known components that were ignored due to a low %, unknown materials, or materials whose exposure potential had not been adequately evaluated. These unsuspected exposures can surprise employers during an OSHA inspection and confound the etiology of health effects associated with toxicant/ industry exposures. Results: Spraying a coating containing 0.06% formaldehyde resulted in an exposure 220% of OSHA limits; Cd exposures up to 288% of OSHA limits occurred at four nonferrous foundries using zinc containing 0.0002% Cd; Pb/Cd exposures of 185/15.4 µg/m3 occurred from dumping bags of ZnO containing 0.005% Pb and 0.001% Cd; and plasma cutting bare 304 stainless steel (“0”% Pb) resulted in a 75.1 µg/m3 Pb exposure. All companies were unaware of the contaminants, the exposures, and the associated regulatory requirements. Lessons Learned: Significant exposures occurred to materials present at levels well below what professional judgment may indicate is relevant. Cd exposures were concomitant with Pb and are a previously unreported finding that must now be considered when evaluating kidney toxicity in nonferrous foundry workers. Professional judgment must be calibrated to new information which, as shown here, includes reporting low level components and incorporating them into the exposure assessment process. This is a challenge that covers all aspects from material composition, detailed task analysis to sampling and analytical method selection. CS-106-03 Similar Exposure Groups (SEGs) in Hydraulic Fracturing R. Rottersman, ENVIRON International Corp., Chicago, IL Situation/Problem: In 2012, it was estimated that over 360,000 people were employed in the drilling/production of shale gas and that this number would increase to over 600,000 by the end of the decade. There have been a number of studies that have evaluated occupational exposures related to the fracturing process. In addition to fracturing, many employees are engaged in other operations beginning with well pad construction through monitoring producing wells. The variety of services and tasks performed in the hydraulic fracturing industry results in diverse occupational exposure profiles. Resolution: Defining similar exposure groups (SEGs) followed by qualitative and possibly quantitative assessment is a way to allocate and prioritize assessment resources. The large and diverse employment demographics within the hydraulic fracturing industry is well suited for this risk based type of assessment strategy. A model based upon the American Industrial Hygiene Association’s Exposure Assessment Strategy was implemented to evaluate exposure risks from SEGs including silica transport, roustabouts performing well construction, vacuum truck operators and well monitors/pumpers who gauge www.AIHce2015.org 13 tanks in producing wells. Results: Findings of the assessment identified a number of scenarios related to non-routine tasks or changes in operational conditions that could result in exposures that might be overlooked during a routine industrial hygiene assessment. These include potential exposure to hydrocarbons or hydrogen sulfide during tank gauging, biocides in tank cleaning operations, traffic safety/driver fatigue, and noise exposure for those working in the vicinity of vacuum trucks. While these exposures might not exceed occupational exposure limits, they should be considered in exposure assessments. Lessons Learned: Occupational exposures assessments in the hydraulic fracturing industry often focus on the fracturing process or risks related to physical safety while drilling. Using an approach based on the AIHA strategy can help identify other SEGs and potential exposures that might otherwise be overlooked. CS-106-04 Health Risk Analysis and Characterization of Similar Exposures Groups of Municipal Solid Waste Employees Based on Historic Monitoring Event A. Rohr Daniel, ENVIRON International Corporation, San Francisco, CA; P. Harper, ENVIRON International Corp., Phoenix, AZ; C. Torres CIH, CSP, ENVIRON International Corporation, Atlanta, GA; R. Wills, Waste Management, Houston, TX Situation/Problem: Similar exposure groups (SEGs) are defined by the American Industrial Hygiene Association (AIHA) as groups of employees with similar exposure profiles. SEGs are employees that are classified similarly due to the work environment, environmental agents (i.e., contaminants of concern (CoCs)), and exposure factors which include job tasks. Characterizing SEGs is a critical component of an occupational exposure assessment. Health risk is a function of the toxicity of what workers are exposed to, and the risk of exposure to those CoCs. For this study, the SEGs among municipal solid waste employees were characterized and analyzed for relative health risk due to multiple CoCs based on a Bayesian Decision Analysis (BDA) of historic exposure data from 62 facilities across North America. Resolution: The potential health risk to municipal solid waste employees was evaluated. Personal monitoring data collected from 1998 to 2014 consisted of 1,526 data points from 62 facilities in two countries have been reviewed and tabulated. Of the various tasks and job descriptions 19 SEGs and 203 CoCs were determined. CoCs with ≥ 3 data points for each SEG in each LOB were reviewed, and BDA was used to determine the AIHA exposure category. Results: The study points out the shortcomings of traditional execution of exposure assessment programs. Despite the large number of samples, only a small handful of SEG/COC combinations were capable of characterization with statistical significance. Results indicating either high statistical variability or too few data points provide insight into current knowledge gaps and the potential to mischaracterize health risks to SEGs. Lessons Learned: Performing the BDA allowed further understanding that, although numerous monitoring events had been conducted, the lack of planned assessments left many SEGs uncharacterizable and requiring additional data to be collected. The analysis of the BDA facilitated the design of future 14 AIHce 2015 | May 30 – June 4 | #AIHce monitoring plans based on the quality and quantity of the historic data. BDA is a widely utilized tool in the industrial hygienists’ tool belt that proved to be an invaluable asset in characterizing the potential health risks to municipal solid waste employees. SR-106-05 Characterization of Exposure to Diesel Particulate Matter in an Underground Metal Mine D. Stephenson, Boise State University, Boise, ID; E. Zamzow, Boise State University, Boise, ID Objective: Elevated exposure to diesel particulate matter (DPM) has been linked to adverse health outcomes including respiratory irritation, cardiovascular disease, immune dysfunction, and lung cancer. Due to the nature of their work in confined spaces and in close proximity to diesel powered equipment, underground miners experience amongst the highest exposures to DPM of any occupation. The overall goal of this research is to use realtime and time-integrated sampling methods to evaluate environmental and occupational exposure to DPM in an underground metal mine. Methods: Using underground miners placed in high, medium, and low exposure categories and results of environmental monitoring, correlations between DPM measurements acquired using MSHA-approved methods and realtime measurements of diesel exhaust combustion byproducts were determined. Colocation of DPM impactors with realtime monitors allowed for regression analysis between measurements. Samples collected using DPM impactors were subjected to analytical methods that determined the elemental carbon (EC) and organic carbon (OC) fractions of total carbon (TC). The resulting data provides important information related to using the EC faction to estimate TC in the presence of airborne carbon interferences. Results: Regression analysis of results from environmental monitoring suggest fair to poor correlations between realtime measurements of particle concentration and NO2 and measurements of TC (R2 values of 0.75 and 0.076, respectively). Concentration results of personal exposures to TC generally followed a miner’s low, medium, or high exposure category and ranged from 21µg/m3 to 132µg/m3 with an average of 55µg/m3 (SD = 22µg/m3). With respect to miner exposure categories, acquired EC/TC concentration ratios ranged from 2.4 to 7.9 with an average of 3.9 (SD = 3.8). Conclusions: Study results suggest that there is a fair correlation between realtime measurements of particle concentration and TC, but that similar realtime measurements of NO2 serve as poor surrogates for this MSHA compliance measure. Personal exposure measurements of DPM were below MSHA compliance thresholds validating the use of appropriate ventilation and diesel powered equipment controls. Large OC fractions in DPM samples are unexplained and appear to indicate the presence of interferences in the ambient air of the underground environment. CS-106-06 Personal Breathing Zone Exposure Monitoring and Surface Contamination Study of Lead at an Indoor Firing Range P. Kondragunta, International Safety Systems, Vadodara, India Situation/Problem: Testing of Kevlar material is carried out by firing bullets, loaded with gunpowder, in an enclosed firing range. Bullets (having Lead based primer) are loaded into the barrel of the rifle and the bullet is shot by the user, from outside the firing range using a switch connected to the rifle. The firing pin of the rifle hits the back of the cartridge, activating the shock-sensitive primer, which ignites the gunpowder, forcing the bullet down the barrel of the rifle and on its path. The heat and pressure within the cartridge vaporize the lead present in the primer. The heat of this explosive reaction and subsequent cooling results in the condensation and formation of tiny lead particles at the source, throughout its path and at the bullet trap. Resolution: Full shift/eight-hour TWA employee exposure monitoring for lead particulates was carried out using modified NIOSH 7300 method. Surface contamination study for lead particulates was also carried out, before and after firing of bullets using modified NIOSH 9102 method. ACGIH prescribed eight-hour TLV-TWA of 0.05 mg/m3 was used as evaluation criteria for employee exposure. OSHA recommended level of acceptable lead loading for non-lead work areas of 0.2 μg/cm2 was used as evaluation criteria for surface contamination study. Results: The eight-hour TWA employee exposure to lead particulates was below 10 % of the ACGIH TLV-TWA limit of 0.05 mg/m3. The surface contamination level before firing of bullets were above the OSHA recommended level of 0.2 μg/cm2. The surface contamination level increased by 10 folds, after firing of bullets. Lessons Learned: The indoor firing range lacked proper ventilation and hence, users were exposed to lead dust from the primers. Although the exposure through inhalation was below the OEL, potential for ingestion risk exists due to surface contamination. Avoiding contact with all surfaces and using two pairs of nitrile gloves was recommended to reduce the risk of exposure through ingestion route. CS-106-07 Challenges of Exposure Assessment for Hexavalent Chromium Exposure in the Automotive Parts Manufacturing Industry (Sponsor: Exposure Assessment Strategies Committee) N. Lee, Tenneco, Lake Forest, IL Situation/Problem: Identify the exposure risk to hexavalent chromium for welding operation in an auto parts manufacturing setting using qualitative and quantitative exposure assessment. When engineering control settings are modified frequently, making exposure assessment strategy and management can be challenging. Therefore, the exposure assessment tools were applied to assist with professional judgments in order to manage workplace/workers. The tools included the Checklist, the manufacturing internal qualitative assessment, and the Industrial Hygiene Data Analysis (IHDA). The results were compared between the three assessment tools for appropriate assessment. Resolution: OSHA ID-215 was used to collect and analyze welding fume samples for hexavalent chromium. An air pump was attached to a 37 mm PVC filter cassette at 2.0 L/min. The sampler cassette was placed outside the employee’s welding helmet at the breathing zone. A pre-calibration and a postcalibration were performed before and after sampling. After post-calibration, all samples were sealed and transferred to a single laboratory for analysis. The Checklist and the IHDA were applied for qualitative and quantitative exposure assessment respectively. All results were compared with the internal assessment tool used for priority of management. Results: The Checklist includes the options of toxicity and engineering control. The internal qualitative assessment has additional information that includes frequency/duration, generate amount, observed dustiness, and exposure potential. The qualitative assessment from the Checklist indicated the hexavalent chromium level was at exposure category 4 (exposure >100% of OEL) when capturing at points of emissions. Meanwhile, the quantitative assessment from the IHDA concluded that exposure categories were varied, from category 3 to 4, regardless the type of controls in place. The internal assessment tool indicated mixture conclusions, a range from category 1 to 4. Lessons Learned: Before quantitative assessment, if only limited information is applicable, the Checklist can function as a primary assessment tool to narrow down the scope. Furthermore, the internal assessment tool with more details can be used as secondary assessment to make decisions for management use. CS-106-08 The Use of an Activity Based Study (ABS) as a Novel Method for Tracing Mercury Contamination in Schools and Industrial Settings J. Callahan, J. Kind, K. Scribner, Center for Toxicology and Environmental Health, North Little Rock, AR Situation/Problem: Spilled liquid mercury is easily spread via contaminated shoes and clothing, which can lead to widespread contamination in buildings with sizeable populations (e.g. schools/industrial facilities). When a spill occurs, mercury evaporates and becomes an invisible, odorless vapor, which may pose a long-term health risk. In a recent school spill, breathing zone air concentrations were below the Agency for Toxic Substances and Disease Registry (ATSDR) recommended action levels, yet accumulation of mercury on shoe soles was evident upon entry into the building. This indicated persistent mercury contamination on surfaces that was not identified by air monitoring. Resolution: The ATSDR recommends that headspace readings for personal belongings in the range of 3-6 µg/m3 be considered protective of human health. Using these guidelines, we developed an activity based study (ABS) to examine floor contamination. Workers donned clean footwear, entered the school, and walked for a specified time period in classrooms and hallways. Afterward, footwear was sealed in air-tight bags and heated passively in the sun to an external temperature of ≥85°F for one hour. Headspace analysis was performed, and footwear with mercury vapor readings >3 µg/m3 were considered indicative of the continued presence of mercury contamination in the area. Results: Using the ABS, we were able to characterize the migration of mercury throughout the school. The initial assessment showed the highest shoe headspace was 48.7 µg/ m3, which is 8-10 times the level considered protective of human health. This allowed for targeted clean-up efforts prior to reentry of students to prevent further contamination of personal belongings and migration off-campus. Lessons Learned: In large buildings, air monitoring may not be sufficient to detect areas of mercury surface contamination. Even though ambient air concentrations may remain below levels recommended by regulatory agencies, the potential may exist for mercury contamination on personal belongings that could produce a source of vapor when stored in cars, closets, or homes. The use of an ABS in these circumstances provides a detailed examination in order to establish appropriate remediation efforts for the continued safety of students and workers. www.AIHce2015.org 15 CS-106-09 Case Study: Fipronil Exposure from Misapplication of Insecticide during Extermination B. Fontaine, The Windsor Consulting Group, Inc., South River, NJ Situation/Problem: Fipronil is a commonly used insecticide in American homes. Limited data are available on the human toxicity. Analyzing pesticide illness surveillance data from 2001 to 2007, there were 103 acute illness cases of fipronil exposure. Findings show reporting of acute illness was relatively uncommon. This case serves as sentinels to warn hygiene practitioners of the need to reinforce the importance of precautionary measures to prevent fipronil exposure and subsequent adverse health effects due to thyroid toxicity and potential for carcinogenicity. Resolution: After reviewing the sample results, toxicity of fipronil and its mammalian metabolites and the age of the family members and routes of exposure (dermal absorption, ingestion, and inhalation); a qualitative risk assessment was done to determine the next course of action. The results clearly suggest the adults (parents) could cohabitate with the residues on the various building surfaces but the health risk was intolerable for very young children. A recommendation was made to keep the children out of the house until building surfaces could be decontaminated and collaborate with the family pediatrician on biomonitoring thyroid function of the children. Results: The air and surface sample results for cypermethrin were below the limit of analytical detection. However, the surface samples for fipronil indicated residues in several locations throughout the residence. In particular, 4.9 µg/100cm2 was detected on the wood flooring. Wipe samples collected on the living room floor indicated 3.4 µg/100cm2, 4.1 µg/100cm2 in the master bedroom, 11µg/100cm2 in the children’s bathroom tile, and 2.2 µg/100cm2 on the basement windowsill. Fipronil was not detected in the surface samples collected in the dining room, master bathroom, hall outside the children’s bedroom, or the painted cement basement floor. Lessons Learned: Fipronil is one of the most commonly used insecticides in American homes. However, limited data are available on the toxicity of this pesticide in humans. Analyzing pesticide illness surveillance data from 2001 to 2007, there were 103 acute illness cases associated with fipronil exposure. The findings of acute illness was relatively uncommon due to underreporting and most cases were residential exposures. This case serves as sentinels to warn hygiene practitioners of the need to reinforce the importance of precautionary measures to prevent fipronil exposure and subsequent adverse health effects. PO107 Joint Session on Management, Stewardship and Incident Preparedness Monday, June 1, 2015, 2:00 PM - 4:40 PM CS-107-01 A Multifaceted Approach to Improving Leading and Lagging IH Metrics within a Large Corporation J. Mecham, O. Kampa, Phillips 66, Bartlesville, OK Situation/Problem: This presentation details one company’s journey with developing and improving their leading and lagging IH metrics. As part of a performance monitoring strategy, the 16 AIHce 2015 | May 30 – June 4 | #AIHce IH group at an Oil and Gas company was challenged to improve their leading and lagging metrics. Resolution: The IH group worked to create and improve several metrics which 1) helped identify trends/progress year to year, 2) allowed for similar site comparisons, and 3) correlated with IH program health. The metrics needed to be easily understood by managers and correctly differentiate both best practices and areas for improvement. In addition to providing metrics for management, a process of sharing IH learning opportunities with front-line workers was created. A new leading metric was rolled out which reflected the amount of resources dedicated to IH monitoring at a site, the number of SEGs sampled in a year, and the total number of samples taken in a year. An additional tool was implemented which aided sites in self-assessing the many aspects of a site IH program. Results: The new IH metric processes have facilitated the sharing of good practices and identified areas which need improvement and/or additional management support. A positive correlation was observed between positive IH metric performance and site IH program resources. Lessons Learned: During the process of improving the leading and lagging metrics, deficiencies and enhancements of the new processes have been identified; identifying the “right” things to measure remains a challenge. CS-107-02 Motivational Structure Analysis: Building Culture with Human Factors S. Pizzani, Bureau Veritas North America, Edison, NJ Situation/Problem: Workplace culture has a substantial effect on how employees view health and safety issues, and how they choose to respond to hazards and exposure controls when making independent decisions. Program management may include incentive programs, structured discipline, or interdependency initiatives, but what are the governing dynamics behind these systems? How can we use these principles to our advantage? Resolution: Building a health and safety promotion system should take into place social dynamics and cultural factors, and a clear understanding of incentive structures to design controls that work for processes and for people. Schedules of reinforcement can be leveraged to maintain interest, and establish promotional systems that don’t provide incentive for hiding injuries or padding numbers. Incident investigation processes that include a root cause analysis informed to social factors can elucidate hidden trends. The process begins by establishing a solid foundation, conscious of these principles. Results: This discussion will provide insight into the dynamics behind schedules of reinforcement, examination methods for motivational structures, and their potential impact on health and safety exposures. A case study from the author’s practice where these principles were applied successfully will be briefly examined. Several examples of counterproductive efforts will be presented. Lessons Learned: An understanding of human factors and motivational principles is key to building and promoting a culture conducive to empowering employees to make decisions in line with exposure control. Once established, the system can become self-propagating and empower employees to exhibit model target behavior without direct instruction or continuous oversight. If you think you “can’t fix stupid”, you’re not looking deep enough. CS-107-03 Case Study: Using Supply Chain Traceability to Better Manage Costs, Compliance and Risk K. Kawar, Actio Corporation, Portsmouth, NH Situation/Problem: One company wanted to standardize the gathering, vetting and storing supply chain ingredient information in order to achieve leaner operations, mitigated risk, safer products and facilities, regulatory compliance, and lower costs. Manufacturers are increasingly required by law to obtain detailed information from suppliers about the materials and substances in supply chain. Suppliers are increasingly required to supply that information — often the same data for multiple requesters - which causes unnecessary redundancy, hardship and error. One company sought to approach the challenge at the enterprise level, rather than piecemeal, to conserve costs and manpower. Resolution: This case study will focus on working techniques for achieving supply chain traceability. Included are specific ways one company overcame challenges with deadlines for reporting on substances in a supply chain. The presentation will show how one company decided to use an enterprise-level approach to turn the burdens of regulations like REACH, RoHS, WEEE and conflict mineral compliance into opportunities for leaner operations and more compelling products. Results: The result of the supply chain traceability initiative was operational transparency as never before, which itself results in better management of costs, compliance and risk across the enterprise. Lessons Learned: Specifically, the following 12 points were identified as best practices. A system for supply chain traceability should provide: 1. Customizable option to regularly, automatically contact suppliers for updated data; 2. Mechanisms that stimulate upstream supplier & downstream customer communication; 3. Easy-to-use reporting; 4. Centralized part, supplier and regulatory information from many sources; 5. Upload, parsing, field mapping, and storage of data collected from templates; 6. Validation of submitted data; 7. Automatic updating; 8. Supplier identities kept discrete (hidden from each other, and from competitors); 9. A “set it and forget it” type program; 10. A centralized, database-driven technology; 11. Allowance for additional reporting channels (e.g., to the EU), and 12. “Big picture” view of supplier data, via overview data grids. CS-107-04 Emergency Communications G. Arrotti, ESPN, Inc., Bristol, CT Situation/Problem: There are numerous regulatory authorities, consensus standards, and best practices available to safety and health professionals on emergency response communications. Unfortunately, adoptions of new standards that address current threats do not recognize the real challenges in emergency communications in a campus environment or in multi-tenant spaces. Coordination and rapid dissemination of instructions and warnings is necessary over multiple modalities to be effective. The selected communication methods must recognize workers and members of the public with disabilities. Resolution: An all-encompassing approach to emergency communication must rely on conventional fire alarm systems as the backbone because of its survivability and resiliency. Other components should include text messaging, e-mail, PC capture, message boards, and phone. Only a multi-layered approach can saturate and ensure delivery of critical emergency communications in any crisis - active shooter, tornado, etc. Furthermore, standardized pre-scripted messaging should be developed and approved by senior management in-advance for crisis that can be anticipated. Results: An integrated approach to mass notification has yielded a process and equipment that is flexible, reliable, and capable of saturating a campus environment. Lessons Learned: The National Fire Protection Association (NFPA) 72 – National Fire Alarm Code, 29 CFR 1910.38 Emergency Action Plans, and the International Fire Code require major revisions to address major gaps in emergency communications. CS-107-05 Building and Executing a Strategy to Provide Environmental Assessment Response Activities across Multiple Jurisdictions in Support of a National Biosurveillance Program K. Martinez, Hassett Willis, Cincinnati, OH Situation/Problem: In 2012, the Office of the President published a National Strategy for Biosurveillance designed to obtain “timely and accurate insight on current and emerging risks” including early detection. A biodetection system in multiple jurisdictions has existed nationally for over a decade. However, an indication of the existence of airborne biothreat agents provides limited information that is ultimately public health actionable. Other biosurveillance data streams must be provided to support decision makers as they respond and develop disease mitigation actions. One such data stream, environmental assessment, enhances situational awareness for public health authorities to create confident response decisions and risk management practices through the provision of quality environmental risk assessment toolsets focusing on hazard identification and exposure characterization. Resolution: The collection of an environmental sample for biological agents is more than applying a swab to a surface and delivering it to a laboratory for subsequent analysis. Great care must be taken in selecting the sample locations to ensure the highest probability to find the agent. Sample collection and analytical methods must be chosen that are appropriate to each surface to achieve the best possible collection efficiency and therefore detection. Sample collection teams must be trained and exercised in the sampling techniques with the goal of improving proficiency and minimizing error. Going further, environmental sample results must be linked back to air dispersion modeling in an attempt to fine tune the model predictions. Lastly, the environmental sample results must be presented to public health officials in an efficient and logical manner to support decision-making activities to protect the population and minimize spread where possible. Results: To generate consistency across multiple jurisdictions, a strategy was developed and implemented to address standardization of sampling methods, creation of response plans tailored to each jurisdiction’s needs, a response plan annual review system to gauge a jurisdiction’s preparedness, guidance publication development, responder training (content and delivery) and exercises to evaluate proficiency. Stakeholders were engaged throughout the process that included Federal, state and local partners. www.AIHce2015.org 17 Lessons Learned: This presentation will document the complexities and successes of preparing a nation to respond environmentally to a biological threat. CS-107-06 Resource Utilization in Chemical Hazard Emergencies M. Seaton, T. Lentz, L. McKernan, NIOSH, Cincinnati, OH; A. Maier, University of Cincinnati, Cincinnati, OH; S. Sachdeva, Mary Kay O’Conner Process Safety Center, College Station, TX; C. Barton, Oak Ridge Institute for Science and Education, Oak Ridge, TN; E. Ngai, Chemically Speaking LLC, Whitehouse Station, NJ; Y. Lin, Mary Kay O’Conner Process Safety Center, College Station, TX Situation/Problem: Chemical hazard emergencies involve multiple and unknown hazards, require specialized information, and present a need for ongoing assessment and frequent reevaluation. The effective use of information is crucial to ensure a successful response effort. There are a variety of resources available to aid responders, but each resource has different utility depending on the emergency management phase (i.e. response, recovery, and preparedness) and the conditions of a given scenario. A systematic framework for collecting and integrating information is needed for effective emergency management. Resolution: Based on analyses of chemical hazard emergency case studies, our team delineates the process by which chemical hazard information is collected and integrated throughout the phases of emergency management. In doing so, we illustrate a systematic framework that will help responders quickly identify and select appropriate information sources in chemical hazard emergencies. Results: A product of the case study analyses is a framework for mapping the utility of information during the phases of an incident, along with examples of information sources for each phase. In our analysis of an explosion at a polyvinyl chloride manufacturing facility, it is evident that key information inputs, such as a response pre-plan, were not appropriately utilized. Facility emergency procedures were not clear and suitable preparedness activities had not occurred on a regular basis. Additionally, an analysis of an explosion and release of methane sulfonyl chloride exhibits how the use of rapid guidance, such as the Department of Transportation’s Emergency Response Guidebook (ERG), can improve response outcomes. Lessons Learned: Effective emergency management requires the appropriate utilization of various resources as an incident evolves. It also requires that both physical and health concerns are taken into account when determining isolation distances, chemical protective clothing, and protective actions meant to preserve life and property. Preparedness officials should have an information management framework in place that will direct responders to the appropriate information resources and improve response. SR-107-07 Determination of Pressure Drop across Activated Carbon Fiber Respirator Cartridges J. Balanay, East Carolina University, Greenville, NC; C. Lungu, University of Alabama at Birmingham, Birmingham, AL Objective: Activated carbon fibers (ACF) are considered as good alternative adsorbents to granular activated carbon (GAC) for the 18 AIHce 2015 | May 30 – June 4 | #AIHce development of thinner, light-weight and efficient respirators because of their larger surface area and adsorption capacities, thinner critical bed depth, lighter weight and fabric form. The purpose of this research study was to investigate the pressure resistance across various types of commercially available ACFs in realistic respirator cartridges. Methods: Seven ACF types in two main forms (cloth (ACFC) and felt (ACFF)) were tested. ACF materials in cartridges were challenged with pre-conditioned constant air flow (43 LPM, 23°C, 50% RH) at different adsorbent densities and composition (ACFC, ACFF or combination) in a test chamber. Pressure drop measurements across the ACF cartridges were obtained using a micromanometer, and were compared to a GAC cartridge, among the different cartridge types and to the NIOSH requirements in breathing resistance testing for respirator cartridges. Results: Cartridges filled with all ACFF types had pressure drop (23.7 to 39.9 mmH2O) within NIOSH inhalation resistance requirement of 40 mmH2O, while the ACFC cartridge exceeded twice the maximum limit (85.5 ± 3.7 mmH2O). The ACFC’s high pressure drop may be attributed to the tight weaving of its fibers, and its high density (0.10 g/cm3). ACFFs had higher pressure drop compared to GAC (13.4 mmH2O), but has much lower weight than GAC (23% of GAC weight or less). Certain ACF combinations (i.e. 2 ACFF or ACFC/ACFF types) resulted to pressure drop below the NIOSH limit (26.9 to 32.4 mmH2O), and still had much lower weight (4.5 to 6.6 g) compared to GAC. Conclusions: ACFF types showed promise in the development of lighter respirator components with acceptable pressure drop. The use of 100% ACFC in cartridges may result to respirators that are difficult to breathe through and, thus, is not recommended. ACFC types may still possibly be used in respirators with acceptable pressure drop if applied at reduced bed depth. ACFC may have higher adsorption capacity in previous studies, but are shown to be more difficult to breathe through in this study. Thus, they may be used in fewer layers in combination with ACFF with lower pressure drop. ACFF by itself may be more appropriate as adsorbent materials in ACF respirator cartridges in terms of acceptable pressure resistance. CS-107-08 Challenges in Developing a Disaster Worker Mental Health Resiliency Training Program J. Rosen, AJ Rosen & Associates LLC, Schenectady, NY; S. Beard, NIEHS, Research Triangle Park, NC Situation/Problem: Following its involvement in the Deepwater Horizon oil spill, the National Institutes for Environmental Health Sciences Worker Education and Training Program (WETP) identified the need for training disaster workers and supervisors about stress, trauma, mental health effects, and resiliency. Resolution: In partnership with the Substance Abuse and Mental Health Services Administration funding was obtained to develop 3 training programs for disaster workers, supervisors, and clinicians involved in providing services to disaster workers. The goal of the program included improving mental health outcomes for participating disaster workers and supervisors, improving supervisor’s ability to assess and respond to disaster worker trauma and stress, and improvement in organizational support systems. The clinician course is focused on improving clinicians’ ability to recognize signs and symptoms of disaster related stress and trauma and provide appropriate referrals. Results: A 3 phase project was developed that included 1) stakeholder engagement, 2) curriculum development, and 3) train-the-trainer and pilot training programs with NIEHS WETP partners in Louisiana and New York. The four hour interactive worker and supervisor training pilots were evaluated by a professional training evaluator. Modifications were made based on the input from the pilots. Participants were very satisfied with the training programs and consistently rated that the program objectives were met. Lessons Learned: There are a number of challenges to developing a “Disaster Worker/ Supervisor Mental Health Resiliency Training Program”: 1) overcoming resistance to viewing mental health as an important health and safety concern, 2) developing training materials that put complex mental health concepts and terminology into plain language, 3) balancing the needs to teach self-care and stress management with information on employer / organizational interventions that largely don’t exist at this point in time. The value of involving stake holders in curriculum development and delivery was an important lesson learned. PO108 Physical Hazards (Radiation, Vibration, Noise Control), Control Banding & Computer Apps: What a Mix! Monday, June 1, 2015, 2:00 PM - 4:40 PM CS-108-01 Naturally Occurring Radioactive Material (NORM) in Natural Gas: How to Anticipate and Prevent NORM Waste and Subsequently Exposure K. Boot, UBC, Calgary, AB, Canada Situation/Problem: Naturally Occurring Radioactive Material (NORM) occurs naturally in shale gas extraction due to high Uranium and Thorium in this type of sedimentary rock. NORM levels produced can be variable based on pressure, temperature, and added completion fluids. It is often hard to anticipate how much NORM will present itself, and subsequently how to inform and educate staff around exposure. Resolution: Variables that contribute to NORM will be discussed in an approach to eliminate the hazard. Results: This case study investigates what contributing variables affect NORM levels in one geographical play, in order to anticipate and recognize the location and degree of NORM that will be produced. Eliminating NORM is the single best control method to reduce occupational exposures and money spent on proper waste disposal. Lessons Learned: Information provided here will demonstrate how to avoid NORM issues in the early lifecycle of a well. CS-108-02 Dealing with Fears of Radiation from Naturally Occurring Radioactive Materials (NORM) R. Johnson, Radiation Safety Counseling Institute, Rockville, MD Situation/Problem: Workers are often greatly alarmed when first discovering that they may be receiving radiation exposures in the workplace from naturally occurring radioactive materials (NORM). Since they are not employed as radiation workers, they have had no training to understand the significance of radiation exposures and they may quickly imagine terrible consequences. Such workers, along with other members of the public, have been sensitized through continuous reporting by the media with the words “deadly radiation.” Further fears may be fueled by radiation measurements with a Geiger-Mueller (GM) detector with no real understanding of what those measurements mean. Resolution: IHs may easily obtain a GM detector and begin making measurements without knowing how it responds to NORM. It’s hard not to be fearful when hearing a screaming GM detector. However, this is not an adequate technical basis for automatic alarm. Unfortunately, GM measurements are often not made appropriately. And thus safety decisions may be based on count rates or on exposure readings taken in the wrong places. Worker fears could be greatly reduced by a 1-2 hour class on NORM Safety Awareness. This class should be a non-technical explanation of radiation, NORM, how to conduct measurements, and how to interpret the measurements related to safety guidelines. Results: Ideally, in addition to NORM Safety Awareness, fearful workers should be given the opportunity to make their own measurements at locations of concern. IHs can best help workers with their question, “Is it safe?” by providing them with the information and tools to answer the question for themselves. We need to show workers how radiation safety specialists use an eight step process for answering questions on safety. Workers at one facility went from paranoid fear of radiation to calm understanding after a NORM Safety Awareness class and after making their own measurements. Lessons Learned: Workers are much less fearful of NORM radiation when they make their own measurements and understand what the GM detector readings mean. When they learn the eight-step process for radiation safety decisions they are less likely to jump to fearful conclusions for safety that are not technically warranted. Without understanding NORM and radiation measurements misinterpretations abound. This can lead to needless anxieties, frustration, and anger which may result in disruption and costly responses in the workplace. SR-108-03 Radiofrequency Exposures at Work: What We Know and Don’t Know M. Shum, AMEC Environment & Infrastructure, Burnaby, BC, Canada Objective: With the relatively recent IARC classification of radiofrequency (RF) from mobile phones as a Class 2B carcinogen, not only has the public experienced a renewed interest in RF exposures, but workers, employers and occupational health regulators have as well. The objective was to review the literature regarding occupational exposures to radiofrequency, determine which occupations are more highly exposed, and to explore possible mitigation strategies to reduce exposure. Methods: A literature search was conducted to identify peerreviewed articles relating to occupational exposure to RF and its health effects. Two databases, Medline and EBSCO were used. Key terms used were: radio waves, microwaves, electromagnetic radiation, electromagnetic field, occupational exposure, occupational diseases, as well as specific industries: plastic welders, amateur radio operators, broadcast station and radar. There were no date limits, but studies were limited to English only. www.AIHce2015.org 19 Results: Workers that have been or continue to be exposed to sources of radiofrequency include military personnel, radio operators, broadcast tower/mobile phone base station maintenance workers, physiotherapists, and plastic welders. The exposure literature for these occupations is outdated and scant with exposures not well-characterized. For the studies that do include quantitative data, RF sealers appeared to have the highest exposures. Typical exposures for telecommunications workers and radio operators were below occupational health guideline limits. For MRI workers, incident field limits of RF can be exceeded within short distances of the bore entrance during the scan acquisition, but this happens rarely. Conclusions: Controlling exposures in the workplace can pose a significant challenge, but the industrial hygiene principles of controls can still apply: substitution, engineering, and administrative controls. Personal protective equipment is likely not a viable option when dealing with the magnetic fields generated by these sources. Furthermore, the safety of occupational health guidelines for chronic RF exposure may be at question. Further research and better characterization of exposures in the workplace is needed and may prove useful for understanding factors that are important for public exposures as well. CS-108-04 Whole-Body Vibration Total Worker Exposure Assessment in the U.S. H. Paschold, IUP- Safety Sciences, Indiana, PA Situation/Problem: Adverse health effects of chronic exposure to whole-body vibration (WBV) include lower back pain (LBP), abdominal or digestive problems, cardiovascular disorders, or simple discomfort and annoyance. The adverse health effect of greatest concern is LBP. NIOSH assigned its highest ranking descriptor of “strong evidence” to the WBV-LBP relationship based on its epidemiological review. The European safety, health, and environmental (SHE) community has addressed WBV for decades, with government imposed action levels and exposure limits. SHE professionals in the U.S. have relatively little knowledge regarding WBV, in part due to WBV not being included in OSHA standards. WBV measurements are not performed often due to low SHE awareness and the high costs of instrumentation. Two prior broad industrial-sector studies provided U.S. WBV occupational exposure. A 1974 investigation estimated 8,000,000 US workers as having vibration exposure. The National Occupational Exposure Survey (NOES) (1981–1983) estimated a total of 1,082,217 U.S. workers. A recent study, 2000, reported on WBV prevalence in Great Britain construction. No current U.S. data have been published for the total number of workers exposed to action levels or exposure limits. Resolution: Construction was selected as a test category for an estimate. Conservative equipment usage estimates and representative WBV acceleration values were combined to determine exposure rates. Combined with BLS May 2014 employment data for individual construction trades and allcombined, the total number of exposed workers was calculated. Results: It was estimated 613,000 construction workers (12.0% of total) were exposed above the 8.5eVDV (vibration dose value) action level and 119,000 (2.3%) above the 15eVDV exposure limit, comparing with 22% and 3.5% respectively for Great Britain. NOES reported 288,986 construction workers exposed to any WBV level. This current figure for US workers suggests an underestimate of WBV exposure in the prior studies. 20 AIHce 2015 | May 30 – June 4 | #AIHce Lessons Learned: Many US SHE practitioners are unaware of WBV, the extent of which is more widespread than previously estimated. For this reason, further study with refined techniques is indicated to better define the extent of WBV exposure among US workers. More data is needed on worker activity and actual WBV measurements to provide accurate assessments, which in turn may serve as an impetus to reduce exposures. CS-108-05 Use of Vibration Dampening Tape for Noise Reduction D. Westrum, 3M, Hutchinson, MN Situation/Problem: Process equipment typically has many sources of noise and this was an attempt to address point sources of noise. Two sources of production equipment noise include the following: 1. Noise from plastic parts striking metal components. Noise is generated when rejected parts strike a metal funnel collecting the parts. Noise is also generated when plastic parts are manually dropped into a vibrating metal bowl from the initial impact as well as parts hitting the sides of the bowl during vibration cycles. 2. Guillotines chopping material. Resolution: Vibration dampening tape is used commercially for reducing car door, airplane cabin, and washing machine noise reduction. Vibration dampening tape works by converting the vibration energy into very small amounts of heat. In this application vibration dampening tape was applied to vibrating metal in an attempt to dampen the vibrating metal and thereby reduce noise. Specifically, the tape was applied to: the exterior of the part collection funnels; the exterior of the part collection bowl; and the guillotine blade housing and the framing that supported the guillotine and cycle stops. Results: Vibration dampening tape was used successfully to reduce the part clanking by approximately 8 dBA at one foot. The tape will be used on vibrating bowls and lastly, the effect on reducing guillotine noise was not detected. Lessons Learned: 1. Vibration dampening tape successfully reduced the noise from plastic parts striking the sides of the metal funnel. 2. The thickness of the tape was small compared to the guillotine components. It has to be comparable to the thickness of the material you’re trying to successfully dampen the vibrations and reduce the noise. 3. The tape was used to cover as much of the funnel exterior as possible, and it may also be as effective with less coverage. CS-108-06 Monte Carlo Simulation Implementation in Three Control Banding Tools: Assessment of Dermal Risk, The “CB Nanotool” and Heat Stroke Prevention Guide D. Drolet, IRSST, Montreal, QC, Canada; J. Sahmel, Cardno ChemRisk, Boulder, CO; D. Zalk, LLNL, Livermore, CA; P. Dessureault, Université du Québec à Trois-Rivières, TroisRivières, QC, Canada Situation/Problem: Monte Carlo Simulation (MCS) is a computerized mathematical technique allowing a user to account for risk in quantitative or qualitative analysis and decision-making. This technique is often used in the OSH field. Using a quantitative model described by an equation or a more qualitative model such as Control banding (CB), it allows the user to substitute a range of values - a probability distribution -for any factor that has inherent uncertainty. Running the model thousands of times produces an outcome defined by a probability distribution instead of a single “true” result. Resolution: MCS is usually done with the help of specialized software (Crystal Ball, Pallisade …) or Excel Add-ons (Simular, Simulacion …). Using Visual Basic in Microsoft Excel, it is also possible to build MCS procedures into regular worksheets. Any deterministic model previously built in a worksheet can then be adapted into a true MCS tool. This work was done for three tools: 1- the AIHA Qualitative Assessment of Dermal Exposures, 2The Lawrence Livermore National Laboratory Control Banding for Nanotechnology tool (CB Nanotool) and 3- the Heat Stroke Prevention Guide (derived from a previous EPA model) published by the Occupational Safety and Health Board in Québec. Results: The Excel files for the three examples include a data entry sheet where the user has to enter the inputs and their corresponding uncertainties. These uncertainties are expressed in the probability of each possible answer, or a distribution of probability (normal, uniform, triangular, log-normal) for quantitative variables. The number of iterations is chosen by the user and may vary from 500 to millions and the total time of MCS routines in the three examples varies from one second to one minute. The result is displayed in the data entry sheet as a histogram of probabilities with different colors corresponding to the risk levels. Lessons Learned: MCS allows the risk-managers to have, given the uncertainties of the inputs, a better view of all the possible outcomes. In these tools, a “sensitivity analysis” can easily be done by changing the input parameters and running again the MCS again. This feature can help the risk manager to easily and proactively identify the best ways to decrease the risk levels. In this presentation, real-time demonstration will be presented. CS-108-07 Using an Online Solution to Evaluate and Reduce Ergonomic Risk in a Manufacturing Setting T. Hawkinson, The Toro Company, Bloomington, MN Situation/Problem: Evaluating and prioritizing ergonomic risk across a manufacturing assembly business is a challenge. The online system described was used to train the ergo team in recognition of ergonomic risk factors, evaluation of the risk using an online tool, provide engineering design guidance in reducing risk and then rescoring the risk of the task. Reporting tools allow tracking stages of assessment, solution identification and solution implementation with a final reassessment to demonstrate reduced risk. to management on progress against targeted reductions. The quantitation provided by the model behind the system allows a credible method for demonstrating risk reduction and measures program success. Lessons Learned: The system can be used to employ design criteria for diverse populations of workers to make the tasks built into new processes less risky for all. The design guidance documents provide richly illustrated examples of how ergonomic criteria can be incorporated into existing and future tasks. CS-108-08 Collecting IH Data with a FileMaker App M. Rollins, Apps for EHS, Brooklyn, CT Situation/Problem: Collecting IH/EHS data in the field is still largely done by juggling any combination of clipboard and pen, camera and timepiece. Whether it is using direct-reading instruments (e.g. SLM, detector tube) or samples that require lab analysis, there is a lot of duplication of effort and with data transcribing, photo transferring, etc. Resolution: Development of custom Apps for iOS using FileMaker allows all data to be collected on one device, including pictures, calibration information and signature. Properly formatted fields include a menu choice of chemicals sampled, so no spelling errors, auto entry of time and date. The mobile data is seamlessly transferred to a server for storage, and report generation is just a click away. The appropriate App can even submit a properlyformatted laboratory submission sheet, as well as generate a report for a direct-reading instrument in situ. Results: Data collection was easier as one device was used, and in many cases less obtrusive. As pictures were embedded in a record, it was not possible to mix up photographs. Lessons Learned: The use of a properly designed, formatted and tested App allows information to be collected far more rapidly and accurately, with minimal chance of transcription or spelling errors. Exhaustive testing is also necessary to ensure minimal hiccups. PO109 Noise: Exposure Assessment and Control Monday, June 1, 2015, 2:00 PM - 5:00 PM Resolution: This process was implemented over two quarters in four manufacturing sites with significant ergonomic exposures and included two consulting visits to calibrate team assessment processes and conduct quality assurance on the existing evaluations. The system permits capture of photos and videos of tasks as part of the assessment process and was executed using tablet technology, with the system accessed wirelessly using a browser. The team was able to review and refine assessments using the video to define risk against research criteria for frequency, force and posture. The system permitted the sites to execute a credible, auditable, risk assessment map across the sites from a standing start in two quarters. Although not all jobs have been assessed, the recognition tool allows higher risk jobs to be assessed first. The assessment drives focus to the sites in the body at highest risk and the assessment tool identifies probable interventions needed to reduce the risk. CS-109-01 2015 Safe-in-Sound Excellence in Hearing Loss Prevention Awards™ S. Schneider, Laborers’ Health & Safety Fund, Washington, D.C. Results: Reports of progress in stages of assessment, including pareto charts generated using quantification methodology which delivers a single number related to the task overall risks allows addressing the most serious risks first, and allows feedback Results: The 2015 Safe‐in‐Sound Excellence in Hearing Loss Prevention Awards™ will be presented. Each of the award recipients will accept their awards and briefly present their success stories. Situation/Problem: In 2007, NIOSH partnered with the National Hearing Conservation Association (NHCA) to create the Safe-inSound Award™ for Excellence and Innovation in Hearing Loss Prevention (www.safeinsound.us). The objectives of this initiative are to recognize organizations that document measurable achievements and to share leading edge information to a broader community. Resolution: Hearing health practices are evaluated against key performance indicators in a rigorous review process designed to capture and evaluate the successes. www.AIHce2015.org 21 Lessons Learned: These success stories can hopefully show others how to succeed at hearing loss prevention. CS-109-02 How Can We Conduct Better Quality Personal Noise Dosimetry Measurements in the Workplace? B. Selwyn, Sensidyne LP, Merrimack, NH Situation/Problem: Making noise exposure measurements on individuals is a common task for many industrial hygienists. However, the fact that the majority of these measurements are made with an instrument that is not always supervised can lead to the presence of unknown errors in the results. Deliberate or accidental tampering with the readings has been experienced by many users of noise dosimeters leading to uncertainty in the overall conclusion when the time weighted average value is close to the daily limit. Unexpected spikes in the time history do not always have an adequate explanation or true cause unless the supervisor was present at the time to accurately document what happened. This is not always possible. Resolution: A new personal noise dosimeter has been developed to assist the industrial hygienist in the correct interpretation of unforeseen spikes in noise levels. The provision of two methods of identification virtually guarantees that the supervisor can be certain of what happened during the study and can make an informed decision about whether to include or exclude any high levels seen in the time history data. The inclusion of a selfvibration monitor in the new dosimeter detects if the instrument itself has been roughly handled by the wearer and tags the time history samples with a high vibration marker. High level spikes in the measurement can also be recorded as an audio signal allowing the supervisor to listen to the event and determine the cause as if they had actually been there. Results: Downloaded results from the new dosimeter are saved at intervals as short as 10 times per second if needed for rapidly varying noise levels. The tags associated with high self-vibration or the audio markers are visible when the run information is downloaded to the software package supplied with the instruments. The user can choose to reject the samples that are contaminated with the high vibration marker and recalculate the overall noise dose. The audio signal can be listened to in order to determine the true source of the high noise levels for each event and those events determined to be not characteristic of the typically expected noise sources can be eliminated. Lessons Learned: The errors and uncertainties about valid time history data can now be correctly identified using the new noise dosimeter. High self-vibration and unrepresentative sounds can be identified and removed if required leading to better quality conclusions for personal noise dosimetry measurements. SR-109-03 Daily Noise Exposure of Patrol Officers D. Vosburgh, L. Gilbertson, UW-Whitewater, Whitewater, WI Objective: Previous research shows that police officers are at a higher risk for noise induced hearing loss (NIHL). Little data exists on the occupational tasks, outside of the firing range, that might lead to the increased risk of NIHL. This study measured the noise exposure of patrol officers (police officers who conduct routine patrol in response to calls and traffic enforcement) as they conducted their daily tasks. Methods: The current study collected noise dosimetry from patrol officers in a smaller agency (n=5) and a larger agency (n=11) 22 AIHce 2015 | May 30 – June 4 | #AIHce in southern Wisconsin, United States. The noise dosimeters simultaneously measured noise in three configurations that had different thresholds, criterion levels and exchange rates. The configurations were: the Occupational Safety and Health Administration hearing conservation criteria (OSHA-HC), the OSHA permissible exposure level criteria (OSHA-PEL), and the American Conference of Governmental Industrial Hygienists (ACGIH). In addition to wearing a noise dosimeter during their respective shifts, officers completed a log form documenting the type of task performed, the duration of that task, if the task involved the use of a siren, and officer characteristics that influenced their noise exposure, such as the type of dispatch radio unit worn. Results: Analysis revealed that the normalized 8-hour time weighted averages (TWA) for all officers fell below the recommended Occupational Safety and Health Administration (OSHA) and American Conference of Governmental Industrial Hygienists (ACGIH) exposure limits. For the OSHA-HC and ACGIH configurations the tasks involving the use of siren had significantly higher levels than the tasks without (p=0.049 and 0.008). The highest noise exposure levels were encountered when patrol officers were assisting other public safety agencies such as a fire department or emergency medical services (OSHA-HC = 71.4 dBA, OSHA-PEL = 65.5 dBA, ACGIH = 76.4 dBA). Canine officers had higher normalized 8-hour TWA than regular patrol officers for all three configurations (p=0.008, <0.0001, 0.003). There were no significant differences in exposure levels between the two agencies (p=0.28, 0.14, 0.13). Conclusions: Results suggest that this study population is unlikely to experience NIHL as established by the OSHA standard and ACGIH recommendations from the daily occupational tasks that were monitored. SR-109-04 Effects of Data Sparsity and Spatiotemporal Variability on Hazard Maps of Workplace Noise K. Koehler, Johns Hopkins University, Baltimore, MD; J. Volckens, K. Lake, H. Wang, Colorado State University, Fort Collins, CO; J. Zhu, University of Wisconsin, Madison, WI Objective: Personal sampling, a state-of-the-art technique to assess worker exposures to hazards, provides little information on the spatial variability of exposures. Hazard maps have gained popularity as a way to locate sources and to visualize spatial variability of hazards within a facility. However, these maps are often generated from short duration measures and have little ability to assess temporal variability. The objective of this study was to assess the potential bias that results from the use of shortduration measurements to represent the TWA in a hazard map. Methods: We measured noise intensity with personal dosimeters at two facilities. A combination of static (i.e., monitors that remained stationary and captured a time series of noise intensity) and roving noise monitors (i.e., monitors that were moved through the facility to capture noise intensity at many locations) were employed to estimate spatial and temporal variability in noise intensity. Ordinary Kriging was utilized to produce hazard maps. Results: At facilities with low temporal variability, hazard maps produced from roving monitor data were in good agreement with the TWA hazard maps and estimated values were within 5 dB of the TWA over approximately 90% of the facility. However, at the facility with higher temporal variability, large differences between hazard maps were observed for different traverses through the facility, and estimates were at least 5 dB different than the TWA over more than half of the facility. The temporal variability was found to have a greater influence on map accuracy than the spatial sampling resolution. Conclusions: At facilities with homogeneous noise intensities over time, the similarity between hazard maps produced from static and roving monitoring methods was high. With higher levels of spatial and temporal variability, hazard maps produced with data from static and roving monitoring methods were substantially different. Future studies using roving monitoring to assess the spatial extent of hazards should consider the temporal variability of the hazard. At facilities with higher temporal variability, hazard maps will be useful to capture transient, high-level exposures that are missed by standard TWA methods. However, these maps may be biased compared to the TWA value and replicate measures should be taken to improve map accuracy. CS-109-05 Ball Mill Noise: An Innovated Approach for Control G. Graham, Freeport McMoRan, Inc., Morenci, AZ WITHDRAWN. CS-109-06 Reducing Noise Levels in Hydroelectric Power Plants J. Komrower, Noise Control Engineering LLC, Billerica, MA; T. Gallagher, Bureau of Reclamation, Denver, CO Situation/Problem: The US Department of Interior Bureau of Reclamation (Reclamation) and the US Army Corps of Engineers (USACE) oversee a number of hydroelectric power plants across the U.S. Noise induced hearing loss (NIHL) has become the number one workers compensation safety issue in Reclamation. Most of reclamation’s power plants are over 40 years old and were constructed before many modern noise control technologies were developed. The Occupational Safety and Health Administration (OSHA) requires the reduction or elimination of a hazard, such as exposure to prolonged high noise levels, to be addressed through the implementation of engineering controls prior to implementing administrative and personal protective equipment strategies. The objectives of this program were to identify and implement feasible engineering controls in hydroelectric power plants in areas where the overall noise levels exceeded 85 dBA. Resolution: Measurements were conducted in a number of power plants and three of these plants were chosen in which to install engineering controls. The measurement methodology included conducting complete acoustic and vibration surveys to identify not only airborne paths, but structureborne paths as well. In addition, unique technology which features a 3D solid sphere acoustic “camera” to capture sound pressure levels and specialized software algorithms to localize the sources of noise was employed. Engineering controls were then designed and installed in the selected plants. These controls included silencers for specific noise sources, acoustic absorption panels on hard surfaces to reduce reverberation, high transmission loss acoustic barriers and damping material on vibrating ducts. Results: As a result of this effort, noise levels were significantly reduced (by as much as 15 dB). The program is a joint cooperation between The Office of Naval Research (ONR) and Reclamation where insights that have been developed as part of ONR’s NIHL program will continue to be applied and leveraged to reduce noise in power plants. Lessons Learned: Engineering noise control techniques can be successfully designed and implemented to significantly reduce noise levels in power plants which not only will decrease the potential for NIHL disability claims but will also result in a better work environment. CS-109-07 The Critical First Step in a Noise Control Program D. Driscoll, Associates in Acoustics, Inc., Evergreen, CO Situation/Problem: Based on 35 years of experience in noise control, some of the most common causes of elevated noise levels are improper equipment setup and/or the need for maintenance. These issues lead to unnecessary expenditures, such as purchasing acoustical materials to treat the symptoms of noise rather than addressing the root-cause, excessive wear and tear on machinery, and potentially unnecessary inclusion of workers in a hearing conservation program. Equipment motivated by compressed air and programmable-logic controllers (PLCs) will often generate excessive impact forces and/or exhaust noise as the air regulators and PLCs are adjusted or the production has changed. The byproduct of non-optimal settings is almost always an increase in noise. Plus, from a noise exposure standpoint, when equipment is not maintained or setup properly it increases the time workers need to spend in the direct sound field of the machine while performing any service requirements. Resolution: Before time and money are invested in implementation of noise controls, the first step should be to ensure the noise concern is not due to improper equipment setup and/or maintenance. Carry out the described acoustical maintenance checklist, and meet with engineering and maintenance representatives to ascertain their opinions on the matter as it relates to elevated noise levels. The described checklist includes procedures to be followed by machine operators and mechanics. In most facilities a measurable noise reduction can be achieved simply and inexpensively by paying attention to the details for maintaining equipment in optimal condition. Results: Optimizing the air pressure driving at a canmanufacturing machine resulted in an attenuation of 20 dBA. Next, changing the PLC timing on a box-forming machine reduced the noise level by 10 dBA. These and other case histories are used to demonstrate the benefits and techniques of proper machine setup and maintenance for noise control. Lessons Learned: Noise control can often be achieved simply and inexpensively, often producing dramatic results, by adhering to a formal acoustical maintenance program. This process alone will yield significant benefits in both the long-term life of the equipment and minimizing the noise exposure risk to employees. Only after the equipment of concern has been properly setup and maintained, should an advanced noise control assessment be undertaken to mitigate the remaining sources of noise. SR-109-08 Evaluation of Active Noise Cancelling Headsets during Jackleg Drilling in an Underground Mine Setting W. DuBose, V. Lee, R. Reed, E. Lutz, University of Arizona, Tucson, AZ Objective: Overexposure to noise continues to be a prevalent occupational health concern in underground mining. Although the usage of hearing protection can prevent occupational noise induced hearing loss, the personal protective equipment inhibits verbal communication while being worn. This presents a potential hazard to miners working with heavy equipment, www.AIHce2015.org 23 such as the jackleg drill. This study evaluated the effectiveness of various active noise cancelling headsets in attenuating occupational noise, as an alternative to traditional muffs that are currently being used by underground miners. Methods: A total of five participants were recruited for this study: two mining students and three research team members. The jackleg drill was operated by the mining students while the research team members observed. The noise exposures were monitored and collected from each participant during five drilling shifts, averaging 30 minutes per shift. The noise dosage levels were measured and recorded using in-ear dosimeters and shoulder dosimeters. One traditional ear muff and four active noise cancelling headsets were used for testing. Dosage levels were compared between the shoulder and the in-ear measurements using a Kruskal-Wallis test for statistically significant differences. An alpha error threshold of 0.05 was used. Results: Collectively, the median relative percent difference (RPD) between the shoulder and the in-ear noise dose for all of the active noise cancelling (ANC) headsets combined was 152.3% (n=14; interquartile range (IQR): 115.1-189.1%). The traditional ear muff median RPD was 183.2% (n=4; IQR: 176.4188.6%). Of all the ANC headsets tested, only one design fared better than the traditional ear muff with a median RPD of 190.7% (n=4; IQR: 185.1-193.9%), but this difference was not statistically significant. The ANC headset that performed the worst had a RPD of 123.6% (n=3; IQR: 55.4-125.8%), which was significantly lower than the best performing headset (p=0.0339). Conclusions: Results show that there may be a slight advantage to wearing ANC headsets when operating a jackleg drill in an underground mine. Although the difference in noise reduction is small between ANC headsets and traditional ear muffs, their implementation and usage would not only provide workers in the mine protection from noise induced hearing loss, but would also create safer work environment, allowing verbal communication for miners while on shift. SR-109-09 Photopolymerization 3-D Printing: Preliminary Assessment of Material Hazards T. Ryan, D. Hubbard, Ohio University, Athens, OH; Objective: Printing in 3 dimensions (3-D printing) constitutes a revolutionary new technology for the production of objects made of metals, biologicals, and polymers. The process holds promise for larger scale commercialization and therefore, elevated worker exposures to process hazards. This work was performed as a preliminary hazard assessment of the process and chemicals associated with a commercial grade photopolymerization 3-D printing process. Exposures to organic polymers, a corrosive cleaning agent (sodium hydroxide), and minor physical hazards (UV, noise) were assessed. Methods: Using Safety Data Sheets to rank order of hazardous resins and support materials toxicologically, specific printing constituents such as polyethylene glycol, toluene, carbon monoxide, Isobornyl acrylate and trace amounts of benzene were targeted for quantification of area airborne concentrations. Strategies for the materials in question were adapted to collect in-printer and ambient facility samples. Post-printing support material removal and solid waste handling was also evaluated. Results: Results indicated only low concentrations of the targeted compounds within the printer, and non24 AIHce 2015 | May 30 – June 4 | #AIHce quantifiable ambient levels, with noise and UV exposures being minimal. Cleaning of polymeric products was found to result in the highest worker potential for exposure. Conclusions: For the materials utilized in the specific process evaluated here, even large printing jobs will likely pose negligible inhalation hazards but potentially serious corrosives exposures. Since metals and biologicals were not evaluated it is recommended that similar assessments be conducted for those processes. PO110 Communication and Training Methods Tuesday, June 2, 2015, 10:30 AM - 12:30 PM CS-110-01 OSHA’s Hazard Communication Standard (HCS 2012) Revised Compliance Directive - An Enforcement Overview S. Rundman, USDOL-OSHA, Washington, DC Situation/Problem: The Hazard Communication compliance directive dated March 1998 does not include the requirements from the revised Hazard Communication Standard (HCS 2012) of March 2012. The revised HCS 2012 affects General Industry, Construction, Maritime, and Agriculture employers and employees. Resolution: A revised Hazard Communication Standard (HCS 2012) compliance directive provides OSHA’s field staff, as well as, the regulatory community with the latest compliance guidance and includes new letters of interpretation. The session will cover the revised compliance directive which establishes OSHA’s policies and procedures for uniform enforcement of the 2012 Hazard Communication Standard including the enforcement of the hazard classification, safety data sheets, labeling, and training requirements. This session will also cover current HCS 2012 enforcement data. Results: Revised Hazard Communication Standard (HCS 2012) compliance directive will provide consistent enforcement of HCS 2012 nationwide. Lessons Learned: A revised Hazard Communication Standard (HCS 2012) compliance directive will assist in consistent enforcement of the new HCS 2012 standard nationwide. CS-110-02 In Plant Labeling, What Now?: Aligning the Hazardous Materials Identification System (HMIS®) with the Updated OSHA Hazard Communication Standard and GHS S. Sides, American Coatings Association, Washington, D.C.; A. Dartt, L. Anderson, Golder Associates, St. Charles, MO Situation/Problem: The Hazardous Materials Identification System (HMIS®) has been used for over 30 years as an inplant labeling system as part of a comprehensive Hazard Communication Program. With the update of the OSHA Hazard Communication Standard (HCS) to align with the United Nation’s Globally Harmonized System of Classification and Labeling of Chemicals (GHS), how will the HMIS® adapt to continue to provide a consistent in-plant labeling system? To ensure the HMIS® in-plant labeling system continues to be an effective communication of hazards and remains in compliance with the OSHA HCS, there was a need to update the HMIS®. This presentation will review the major updates to the HMIS® and how these updates will assist users in translating OSHA HCS and GHS hazard classification information to HMIS® ratings to ensure a continuing and effective in-plant labeling and hazard communication system. This update will have a major impact on current and new users of the HMIS®. Resolution: The HMIS® was updated to be consistent with the requirements of the revised OSHA HCS, with a detailed focus on the hazard classifications adopted from the GHS. The revision includes a comparative table that serves as a cross-reference between HMIS® Health/Flammability/Physical Hazard rating criteria and OSHA’s alignment with the hazard classifications in GHS. Results: Since the OSHA HCS allows for companies to utilize an in-plant labeling system of their choice, the update of the HMIS® and creation of the cross-reference table ensures that the HMIS® in-plant labeling system remains compliant with the OSHA HCS and an effective means of in-plant hazard communication. Since OSHA’s adoption of the GHS also aligns with other countries adopting the GHS, this HMIS® update will assure that the system is understood and can continue to be used by global companies seeking compliance solutions. A major tool created from this update is the comparative table that provides a cross-reference between HMIS® ratings and the OSHA alignment with GHS. Lessons Learned: The update of the HMIS® was a necessary step to provide the users of this system with a hazard communication labeling process that is effective and compliant with the OSHA adoption of a GHS-aligned hazard communication requirement. Creating a comparative cross-reference table for HCS/GHS and HMIS ratings was challenging for certain hazard classes and these challenges will be discussed. CS-110-03 Delivering Industrial Hygiene Training Programs to Developing Countries: An Online Path D. Zalk, UIC GPOHP, San Jose, CA Situation/Problem: Growth needs for Industrial Hygiene training have been established in literature and keynote presentations for over 20 years. Shifts in manufacturing and natural resource extraction industries toward developing countries has only increased over the past decades, yet basic Industrial Hygiene training remains nearly non-existent here. Achieving training in countries where work-related exposures and risks are highest remains necessary to protect the 2.5 billion workers without access to occupational safety, health, and hygiene (OSHH) expertise. Resolution: The outstanding efforts of the Occupational Hygiene Training Association (OHTA) and the International Occupational Hygiene Association have bridged the gap of training accessibility in developing countries. The most comprehensive OHTA training modules are available at the intermediate level for certification of Industrial Hygiene Technicians accepted internationally. The advantageous nature of this intermediate OHTA training has been harnessed at the University of Illinois in Chicago (UIC), a non-profit entity offering of the OHTA modules as part of a comprehensive online distance learning program. The Global Certificate Program in Occupational Health Practice (GPOHP) was created in 2009 and an Industrial Hygiene track began in 2012, designed for engineers and technicians working in OSHH without formal training. The online design affords students in developing countries 9-months training at home, applying practical assignments in their workplaces. Results: The UIC GPOHP has trained 129 students from 39 countries. As a non-profit, UIC has also offered scholarships for this training to 14 recipients from 12 countries. Lessons Learned: Online training successes abound, however challenges still remain including accomplishing hands-on OHTA training requirements online and offering continuing support for graduates that seek to obtain professional certification. This presentation will address the successes and challenges that have been learned through this process and will present a vision for the path forward for the near- and long-term future. CS-110-04 Health Links ColoradoTM : Creating a Healthier, More Productive Workforce through Workplace Training and Education M. Haan, Colorado School of Public Health, Aurora, CO Situation/Problem: Keeping workers healthy and safe is significant to the health of our nation. With the continual rise of health care and workers’ compensation costs, the need for workplace interventions is imperative. Compared to 77 percent of large employers, only 27 percent of small businesses (under 500 employees) offer wellness programs. Worksite wellness programs have been shown to have an effect on employee wellbeing and can be associated for decreased workers’ compensation costs. However, small businesses face real and perceived barriers to adopting and implementing programs, including lack of resources, leadership commitment, employee engagement, and training. Resolution: In July 2013, the Center for Worker Health & Environment within the Colorado School of Public Health launched Health LinksTM Colorado, a community-based program that certifies and advises businesses on evidencebased practices to implement sustainable workplace health and safety programs. Health LinksTM provides onsite advising to help businesses build a culture of health and safety. Trained advisors help businesses identify goals and address strategies to increase physical activity, nutrition, safety policies and practices and more. Health LinksTM is a research-based model adopted from the CDC Worksite Health ScoreCard and the WHO Healthy Workplace Framework and Model. Results: Evaluations show that 81% of participants have found the training to increase their knowledge, attitudes and perceived values of worksite wellness, and 71% plan to apply the knowledge gained in practice in the field. Since July 2013, Health Links has trained fifty community members to conduct advising sessions resulting in 20 consultations with local small businesses. Lessons Learned: By working with businesses throughout the state, we have learned that the value of employers showing their employees that they care by offering worksite health and safety programs goes a lot further than we think. The physical environment of the workplace impacts the wellbeing of the individuals who spend the majority of their time there. Having leaders who invest in their employees and leverage the workplace to address health promotion and health protection can lead to greater change in creating a healthier, safer and more productive workforce. www.AIHce2015.org 25 SR-110-05 Effectiveness of Educational and Behavioral Interventions to Reduce Isocyanate Exposure in the Auto Body Repair and Refinishing Industry: A ClusterRandomized Controlled Trial Y. Liu, University of North Texas Health Science Center, Fort Worth, TX; M. Stowe, J. Sparer, C. Redlich, Yale University, New Haven, CT Objective: To better control isocyanate exposure and prevent occupational asthma in the auto body repair and refinishing industry, improved exposure control strategies are needed. We conducted a cluster-randomized controlled trial in this industry. The main objectives were to assess the effectiveness of educational and behavioral interventions on worker knowledge, attitudes, and self-reported and observed behaviors with regard to isocyanate exposures. Methods: 103 workers from 14 auto body shops participated in this study which was approved by Yale University’s institutional review board. Shops with all their participating workers were randomly assigned into the intervention and control groups. The intervention group received both educational training and behavioral feedback process throughout the first 6 months. Original surveys of exposure-related knowledge and attitudes and self-reported behavior were administered and actual behaviors were observed at baseline, 6, and 12 months. Data were analyzed using the Chi-square test and linear modeling, and statistical significance was set at P < 0.05. Results: Worker knowledge and attitudes improved significantly (p<0.05) in the intervention group [mean change (or improvement) in score 24] compared with control group (mean change in score 4) in the 6-month period. Self-reported behavior also improved significantly (p<0.05) more in the intervention group (mean change in score 20) compared to the control group (mean change in score 6). Most improvements were sustained at 12 months. At baseline, knowledge and attitudes were significant predictors of self-reported behavior (p=0.008). In all study periods, knowledge and attitude mean score was also highly correlated with self-reported behavior. Self-reported behavior was highly associated with observed behavior. Over 87% of workers who reported using a respirator for painting were observed to use a respirator, as an example. Conclusions: Educational training and behavioral feedback improve knowledge, attitudes, and self-reported and observed behaviors in auto body workers exposed to isocyanates. Knowledge and attitude survey is a potentially useful tool to characterize auto body worker exposure risk and readiness for behavior change. In this setting training with behavioral feedback did not add significant benefit beyond the educational intervention. CS-110-06 Influencing Safe Behavior as a Strategy for Reducing Preventable Hydrogen Sulfide Exposures D. Lee, Shell Oil Company, League City, TX Situation/Problem: Organizations across a broad range of industries understand the importance of influencing people’s behavior. Efforts are commonly focused towards influencing customers to select a product over competing products, influencing public opinion within local communities and influencing a workforce to perform job functions in a safe and healthy manner. The challenge is that off-the-shelf behavior based safety programs have not proven to be effective at 26 AIHce 2015 | May 30 – June 4 | #AIHce establishing sustainable improvement and therefore do not provide an acceptable return on investment. Resolution: A description of how Shell’s Deer Park Refinery utilized research conducted by the United Kingdom’s Institute for Government, presented in the publication, “MINDSPACE Influencing behavior through public policy” to address normalized behaviors resulting in preventable hydrogen sulfide exposures will be presented. Included in the presentation will be Shell’s strategies for integrating the key behavioral principles identified in the publication and their impacts. These principles are Messenger, Incentives, Norms, Defaults, Salience, Priming, Affect, Commitments and Ego. Results: Through the implementation of the behavioral elements a need for increased respiratory protection equipment, better communication of expectations and simplification of work instruction were identified. Following the establishment of these improvements hydrogen sulfide exposure events decreased allowing for in depth investigation when exposure events did occur. These investigations identified opportunities for equipment improvements incorporating engineering controls to prevent the need for personal protective equipment. As a result of the administrative actions and behavioral improvements there has been a 79% reduction in preventable exposure events when compared to the year prior. Lessons Learned: Effort should be made to address each of the key principles of behavioral influence equally. This is because the hierarchy of the key principles changes from individual to individual. Behavioral influencing programs that address some of the principles but not all, limits the impact of the behavioral change among the targeted population. Making the effort to customize the key behavioral elements provided in MINDSPACE in accordance with the organizational culture improves the effectiveness of the targeted behavioral change. PO111 Chemical Characterizations of Contaminants in Indoor Environments: Sampling & Analysis Tuesday, June 2, 2015, 10:30 AM - 12:30 PM CS-111-01 A Novel Method for Determining Chemical Residues from Fire and Smoke in Indoor Air A. Delia, K. Martin, Prism Analytical Technologies, Inc., Mt. Pleasant, MI; D. Baxter, Environmental Analysis Associates, Inc., San Diego, CA Situation/Problem: The particulate and chemical residues from fire and smoke events can pose a significant challenge for air quality professionals in terms of the possible aesthetic, health, and odor aspects, particularly in determining the level of remaining contamination during and after cleanup. The complexity of the particulate and chemical residues makes identification of the components specific to the fire difficult. Traditional methods are complicated by secondary sources and do not typically address the issue of the characteristic smoky odor that often lingers for months, or even years, or the potential health hazards of the chemical residue. Resolution: A new method using thermal desorption gas chromatography-mass spectrometry (TD GC-MS) for determining the presence of chemical residues from fire and smoke by examining select volatile organic compounds (VOCs) has been developed. These VOCs were determined based on laboratory and situational studies of a variety of materials exposed to fire and smoke as well as an extensive literature review. This method reveals the extent of chemical contamination from fire and smoke events in indoor air and can be used to assess the potential health and odor effects. Together, this VOC analysis of chemical residues and the more traditional microscopy analysis of soot, char, and ash, provide a more comprehensive solution in determining the level of contamination from fire and smoke events. Results: Several VOCs were evaluated for their efficacy as fire and smoke indicators for both structural and wild fire events. VOCs were selected based on their prevalence in multiple fire situations, lack of additional potential sources, and ease of analytical identification. The selected VOC fire and smoke indicators were tested in several real fire and smoke events and were used to evaluate the extent of contamination. Lessons Learned: Fire produces a complex mixture of chemicals with a variety of characteristics that influence the effects of the fire upon its surroundings. Since the fire and smoke residues add to the existing mix of chemicals, determining the source of the specific chemical compounds can be challenging. A comprehensive understanding of these potential sources is critical to separating the effects of the fire and smoke from the other sources. SR-111-02 A Comparison of Canisters and Solid Sorbent Tubes for Air Sampling of Volatile Organic Compounds in Indoor Environments for 14 to 21 days A. Rossner, Clarkson University, Potsdam, NY Objective: Objective: This research focused on the evaluation of evacuated canister coupled with the capillary flow controllers to collect volatile organic compounds (VOCs) for sampling periods ranging from 14 to 21 days using an exposure chamber. This research is being done to evaluate the effectiveness of sampling indoor environments for vapor intrusion chemicals as well as other indoor contaminates that may cause long term health effects. Evacuated canisters have been used for many years to collect ambient air and indoor air samples. There are several benefits of using canisters over other sampling methods, including the ability to analyze multiple sub-samples from a single canister sample and the ability to directly and costeffectively analyze the samples without the need for toxic or expensive extracting solutions. Methods: Methods: Using a capillary flow control device designed to provide extremely low flow rates (ranging from 0.05 to 1.0 mL/min) VOC (specifically, BTEX and Perchloroethylene) samples were collected over an extended period of time. Six replicate canister samples and six diffusion tube samples were collected for each of the 6 experiments in a chamber for time periods for up to 3 weeks. Concentrations ranging from 0.05 to 0.5 of the TLVs were evaluated. All analysis was conducted using a GC/FID. The sorbent tubes were thermo desorbed and analyzed on GC/FID. The chamber was connected to an online GC and this data was used as the “gold standard” for the challenge concentrations. the collection of a broader range of VOCs. Conclusions: Conclusions: A canister coupled with a capillary flow controller can provide for long-term sampling in indoor air quality assessments for low levels of VOCs and support new exposure assessment strategies for contaminants from inside and outside the buildings. SR-111-03 Representativeness of Single-Point Sampling for Estimating Residential Indoor Air Temperature and Relative Humidity J. Johnston, B. Magnusson, D. Eggett, Brigham Young University, Provo, UT; S. Collingwood, University of Utah, Salt Lake City, UT; S. Bernhardt, Utah State University, Logan, UT Objective: Residential air temperature and relative humidity (RH) are important determinants of human comfort and health, and accurate assessment of indoor environmental conditions is necessary to properly characterize exposure. Studies commonly use instantaneous single-point measures collected with handheld (pen-type) thermo-hygrometers to estimate indoor temperature and RH, but there is little evidence to support using this sampling strategy to represent longer-term residential exposures. This study evaluated the relationship between single-point and continuous sampling methods over two exposure periods (30 min and 12-day). Methods: Study homes (N = 9) were recruited from among employee volunteers at the Cache County national children’s study center in Logan, Utah. Continuous data-logged sampling was conducted in each home for 2–3 weeks from March–June 2012. Instruments were placed in a main living area of the home. While continuous monitors were operating in the home, simultaneous single-point measures (n = 114) were collected in the same room on multiple days and at different times using handheld thermo-hygrometers. Results: Time-centered single-point measures were moderately correlated with short-term (30 min) data logger means for air temperature (r = 0.76) and RH (r = 0.70). Single-point air temperature was also moderately correlated with data-logger 12-day means (r = 0.64). Single-point measures were weakly correlated with data logger 12-day RH (r = 0.53). Of the singlepoint RH measures, 59(51.8%) deviated more than +/- 5%, 21(18.4%) deviated more than +/- 10%, and 6(5.3%) deviated more than +/- 15% from data logger 12-day means. Conclusions: The strength of the relationship between singlepoint sampling and continuous monitoring decreased rapidly as exposure time intervals were increased. This finding was more pronounced for RH than for air temperature. These data suggest that single-point sampling, particularly for assessing residential RH, may lead to home misclassification when used as either a direct measure or as a surrogate for the presence of other indoor exposures such as mold or house dust mites. Continuous indoor monitoring is recommended for use in studies where air temperature and RH exposures are evaluated for health effects. Results: Results: The results indicate that the capillary-canister precision and accuracy exceeded that of the sorbent methods. Long-term sampling with the small evacuated canisters was found to provide results statistically more accurate (p<0.5) than sorbent sampling methods. In addition, the canister method allowed for significant increase in sampling time and allows for www.AIHce2015.org 27 SR-111-04 Characterization of Malodors from a Polymethyl Methacrylate Roof Membrane System J. Kominsky, Environmental Quality Management, Inc., Cincinnati, OH Objective: This study determined whether the source of malodors characterized by building occupants as “chemical-, fecal-, and/or barnyard-like” was associated with emissions from a recently installed polymethyl methacrylate (PMMA) roof membrane system. Methods: Three samples of roof membrane were analyzed to identify the headspace volatile organic compounds (VOCs). A portion of each sample was placed in a 1-liter glass chamber that was purged with ultra-pure air, sealed, and maintained at 46oC for 24 hours to equilibrate the headspace. An aliquot of the headspace was analyzed for VOCs using EPA Methods TO-15 and TO-17. Fixed-station area samplers were positioned at rooftop air intakes and in areas of the building with reported incidents of malodors to determine whether the identified compounds entered the building. Six pairs of samplers were positioned. Each sampler pair consisted of a 6-liter stainless steel canister with a 72-hour flow controller, and a tandem thermal desorption tube with Swagelok® fittings attached to a constant-flow vacuum pump operating at 25 ml/min. Samples were collected over 5 days (6:00 am to 6:00 pm). Fixed-station air samples were collected at HVAC evaporator coils to test for carboxylic acids known to have “fecallike” and/or rancid odors to determine whether the malodors were emanating from wet organic debris (biofilm) on the coils. Results: Headspace analysis showed similar emission profiles. Quantitatively methyl acrylate > 2-ethyl hexyl acrylate > benzene > trimethylbenzenes > toluene > 4-ethyltoluene > n-Propyl benzene > naphthalene > 1-methylnaphthalene >2-methyl naphthalene. Benzene, naphthalene, methylnaphthalenes, toluene, trimethylbenzenes, and other compounds were consistently present at rooftop air-intakes and in the building tenant space; this demonstrate that emissions from the PMMA roof membrane are entering the building. Qualitatively the results are similar to the headspace analysis of roof membrane samples completed by the manufacturer’s consultant, which includes compounds (p-cresol, 1- and 2-methylnaphthalene, and naphthalene) with odors characterized as fecal- or barnyard-like, musty, and/or naphthalenic. Carboxylic acids were not detected. Conclusions: The malodor reported by building occupants appears to have resulted from the PMMA roof membrane emissions entering the building via rooftop air-intakes. Carbonfiltration units in air-intakes operated until the malodors subsided over time. SR-111-05 Particulate and Chemical Emissions from 3-Dimensional Printers A. Stefaniak, M. Duling, R. LeBouf, NIOSH, Morgantown, WV; J. Yi, T. Nurkiewicz, West Virginia University, Morgantown, WV Objective: Three-dimensional (3-D) printers use a heated nozzle to melt a solid thermoplastic filament and deposit multiple thin layers of extruded plastic to form a solid three-dimensional shape. The objective of this research was to evaluate factors which may influence the emission of particulate and chemicals 28 AIHce 2015 | May 30 – June 4 | #AIHce from 3-D printers. Methods: Real-time instrumentation was used to measure particle number, mass, size, and size distribution and total volatile organic compounds (TVOCs) and ozone. Evacuated canisters and gas chromatography were used to quantify specific VOCs. The influence of acrylonitrile butadiene styrene filament color on emissions was evaluated by printing a hair comb in natural, blue, red, and black on the same 3-D printer in a 500 L chamber. The effectiveness of controls was evaluated by measuring emissions with and without the manufacturerprovided printer cover in use. Results: Filament color had a clear influence on particulate emissions. On a mass basis, maximum particle emissions [in µg m-3] were highest for natural (214±6), followed by blue (160±14), red (100±14), and black (9±2). Maximum particle number concentration [# m-3] and count median diameter [nm] also differed by filament color: red (3.8 x 1011; 50), natural (2.5 x 1011; 55), black (1.5 x 1011; 45), and blue (1 x 1011; 63). Peak TVOC levels followed the same rank order as mass concentration, i.e., natural (625±35), followed by blue (448±18), red (395±21), and black (165±21). Specific VOCs emitted were styrene, ethanol, and acetaldehyde. Ozone did not exceed background levels during testing. Removal of the printer cover resulted in a 24% increase in particle mass concentration and a doubling of particle number concentration but little change in TVOC levels. Conclusions: 3-D printers may be important sources of ultrafine particles and VOCs in indoor manufacturing, office and home work environments. Users should be cognizant that emissions will be influenced by the choice of color filament. Particulate emissions will be reduced by use of the manufacturer-provided printer cover. Emission of ultrafine particles and styrene, a known asthmagen and neurotoxin, indicate the need for additional research on potential health effects from use of these printers and control technologies to reduce emission levels. CS-111-06 Mercury Vapor Analysis of Cinnabar in Simulated Shipping Conditions by Atomic Fluorescence Spectroscopy C. Altamirano, Arizona Instrument, Chandler, AZ Situation/Problem: Cinnabar, also known as mercury sulfide (HgS), is a naturally occurring mineral ore, which has historically been used for its prominent red pigmentation in paints (vermillion) and cosmetics. Today, cinnabar is used to create elemental mercury by heating cinnabar in the presence of oxygen to create elemental mercury vapor. Although cinnabar is considered less toxic than elemental mercury, its toxicity is poorly understood in the context of ‘real world’ environments. Variables such as sun exposure, elevated temperatures, humidity and moisture may change the mercury vapor emissions of cinnabar and potentially create dangerous environments for employees. Resolution: Using a portable atomic fluorescence spectroscopy mercury vapor analyzer, levels of mercury vapor emitted by cinnabar in simulated shipping environments can be reliably detected and measured. Using this form of analysis can be useful in verifying the safety of employees who are mining natural cinnabar, producing synthetic cinnabar, or are transporting cinnabar domestically or abroad. Results: Results suggest that the two biggest factors in mercury vapor emission from synthetic cinnabar may be sunlight exposure and elevated temperatures. Sunlight exposure also transforms red cinnabar into black ‘metacinnabar’, which indicates a structural change in the crystalline structure. Humidity has little effect on the emissions, but when paired with elevated temperatures a greater signal is observed. Lessons Learned: Synthetic Cinnabar emitted low levels of elemental mercury vapor at room temperatures and in a dry environment. Precautions should also be made to keep cinnabar in an inert gas such as nitrogen to prevent oxidation as well as storing it away from direct sunlight. PO112 Environmental Microbiology Tuesday, June 2, 2015, 10:30 AM - 12:30 PM SR-112-01 Characterization of a Piezoelectric Inkjet Aerosol Generator for Bioaerosol Survivability Study Y. Kuo, Chung Hwa University of Medical Technology, Tainan, Taiwan; S. Huang, C. Lin, W. Wu, W. Ke, C. Chen, National Taiwan University, Taipei, Taiwan Objective: For a laboratory-based bioaerosol research, stable and reliable bioaerosol generation with minimal damage to microorganisms is of great importance. The main objective of this study is to characterize a piezoelectric inkjet aerosol generator for bioaerosol survivability study. Methods: The aerosol generation system consists of a 50-μm piezoelectric print head, a function generator, a power amplifier, and a pressure control device. The performance of this system is characterized using the potassium sodium tartrate solution and the 3-µm polystyrene latex suspension. The main operating parameters of the inkjet print head for viable aerosol generation include driving voltage, pulse duration, dispersion air flow, pulse frequency and volume fraction of solids in the nebulizing solution. For bioaerosol survival experiments, yeast is used as the test microorganism. Three bioaerosol samplers including a BioSampler, a cassette with gelatine filter and a Marple cascade impactor with Mylar film are used to collect airborne yeast samples. The yeast survival is then determined by methylene blue viable staining with microscopy. Results: This study successfully demonstrates the feasibility and the merit of using piezoelectric inkjet print head for generating viable aerosols. A square wave with appropriate combinations of voltage and pulse duration can drive the inkjet system to squeeze liquid with rheology characteristic similar to water. The particle generation rate can be manipulated by adjusting the pulse frequency. Moreover, dispersion air is required to reduce coagulation. The size distribution of particle dried from 3 mm PSL suspension shows two distribution peaks. The smaller one is apparently from the soluble residue of suspension. The larger one represents the size distribution of particles dried from main droplets. The appropriate concentration of solid suspension is in the magnitude of 106 #/ml. The fraction of droplets containing at least one particle is 0.26. The fraction of droplets containing only one particle among droplets containing at least one particle is 0.86. Conclusions: The inkjet-based aerosol generation has been demonstrated to be more controllable, dynamic, and reproducible than other generators. Moreover, piezoelectric inkjet printing is a thermally consistent process and therefore the microbial survival could be expected to be well preserved. SR-112-02 Transport of Microbial Particles on Fibers in Occupational Environments R. Gorny, A. Lawniczek-Walczyk, A. Stobnicka, Central Institute for Labour Protection – National Research Institute, Warsaw, Poland Objective: To check an ability of different natural and man-made fibers to transport microbial particles at different workplaces. Methods: The sampling was carried out at: three industrial facilities processing natural (cotton, silk, flax, hemp, wool) and synthetic (polyamide, polyester, polyacrylonitrile, polypropylene, viscose) fibrous materials, one stable where horses were bred and one zoo pavilion where lions were kept. At each of these facilities, fibrous aerosol was sampled using 37-mm openfaced cassette on sterile teflon filter during “routine” activities, i.e. during final stages of fibrous material manufacturing cycle, horse currying and lion grooming. Simultaneously with aerosol sampling, settled fibrous dust was collected using sterile spatula. All man-made and natural fiber samples were weighed and laboratory analyzed for their microbiological purity. All microbial strains were taxonomically identified based on their morphology, biochemical features and identification keys. To check the structure and arrangement of fibers that may support transport of microbial particles, a scanning electron microscopy analysis was performed. Results: Both airborne and settled fibers transported analogous microbial strains. All synthetic fibers, present as separated threads with smooth surface, were free from microbial contamination. Natural fibers with loose packing and rough surface (i.e. wool, horse hair, lion fur), sheaf packing and septated surface (e.g. flax, hemp) or present as twisted ribbons with corrugated surface (cotton) were able to carry up to 9×105/3.4×104 and 6.3×104 cfu/g of aerobic/anaerobic bacteria and fungi, respectively. The microbiota present on natural fibers comprised wide spectrum of species (from endospore-forming and non-sporing Grampositive rods, through Gram-positive cocci, Gram-negative rods, to molds and yeasts), including pathogenic strains classified by Directive 2000/54/EC to hazard group 2. Conclusions: As both plant and animal fibers transport a significant number of microbial particles, including pathogens, all of them should be thoroughly eliminated from workplaces and, if production cycle allows such a change, replaced by synthetic ones. To restrain unwanted presence, dissemination and subsequent exposure to harmful microbial agents, highperformance containment measures should be introduced during fiber material manufacturing. www.AIHce2015.org 29 SR-112-03 Seven Novel Penicillium Species and Two Novel Citreoviridin Producing Species of Section Eupenicillium Z. Jurjevic, EMSL Analytical, Inc., Cinnaminson, NJ; S. Peterson, Microbial Genomics and Bioprocessing Unit, National Center for Agricultural Utilization Research, Agricultural Research Service, Peoria, IL; J. Frisvad, Technical University of Denmark, Lyngby, Denmark Objective: A set of isolates were obtained that did not fit any described species. Phenotypic examination of these isolates showed that they were very similar but differed in some growth characteristics. Multilocus DNA sequence data was obtained for the new isolates and some related species in the broader, more inclusive clade. Methods: Fungal isolates were collected from air samples (home/factory) in several widely separated states of the USA and Denmark, from a sample of corn meal (South Africa), from pecan shell (USA, Georgia) and unknown origin. To describe the species we used phenotypes from 7 and 14 day Czapek’s yeast extract agar (CYA) and malt extract agar (MEA). Additional media were CYA with 20% sucrose (CY20S), and CYA supplemented with 5% NaCl, oatmeal agar (OA), and potato dextrose agar (PDA). This was followed by multilocus DNA sequence beta tubulin (BT2), calmodulin (CF), ITS and lsu rDNA (ID), minichromosome maintenance complex component 7 (Mcm7), second largest subunit RNA polymerase (RPB2), and pre-rRNA processing protein (Tsr1) loci. Results: Based on molecular, morphological and chemical analysis the new isolates are described as Penicillium colei, P. cvjetkovicii, P. fluviserpens, P. lehmiflumine, P. monsgalena, P. monsserratidens, and P. salmoniflumine. Extrolite analysis showed that two of the new species, P. colei and P. monsserratidens produce the mycotoxin citreoviridin. Conclusions: The seven new species represent a monophyletic clade that also includes Penicillium idahoense. Citreoviridin or citreoviridin A is a neurotoxic mycotoxin that was first isolated from yellow rice and is believed to be the cause of acute cardiac beriberi disease in humans. Citreoviridin contaminated commodities are uncommon but acute cardiac beriberi was recently reported in Brazil and associated with moldy rice. Citreoviridin has been reported as a contaminant of maize and pecans in the USA. Some citreoviridin derivatives have shown pharmacological activity against lung tumors and these isolates could provide leads in pharmaceutical research. Occupational and environmental hygiene professionals will be made aware of these newly described fungi and their potential health hazards. SR-112-04 Estimating the Accuracy of Single Outdoor Samples H. Burge, Environmental Microbiology Laboratory, San Bruno, CA Objective: Statistically, the indoor aerosol (by taxon) is well correlated to the outdoor aerosol with concentrations lower indoors. Thus, outdoor samples are essential to control for this outdoor/indoor penetration effect. Indoor/outdoor samples are usually collected within a short period of time while outdoor penetration has probably occurred before the samples are collected. Acute changes in weather could cause the outdoor sample data to misrepresent the actual prevailing aerosol that penetrated indoors. Our objective is to provide summarized baseline data specific to the date and location of the outdoor 30 AIHce 2015 | May 30 – June 4 | #AIHce sample that can be used to evaluate the accuracy of single outdoor samples. Methods: We have been mapping the outdoor fungal aerosol for many years, and have developed the MoldRange to assist investigators in interpreting outdoor sampling data. Beginning with monthly and by State averages separately then together, we went on to establish zip code groupings to more accurately represent fungal populations. At least for California, we are now able to offer minimum, median, and maximum data to our clients for comparison with their sample data for that date. This year we have expanded this effort and developed a preliminary excel spreadsheet that will allow a zip code and date to be entered and the computer will produce the range, minimum, median and maximum counts for that zip code. The statistic uses NOAA climate data on temperature and precipitation within the entered zip code and our massive database on outdoor fungal aerosols to generate these values. Results: Preliminary results indicate that the statistic produces data within the range of the MOLDRANGE. It also provides average temperature and precipitation for the month of sampling by site, and the frequency of recovery of specific taxa at the site. It is adaptable for all locations for which NOAA provides weather data, and for which we have sufficient samples for the location in our database. Conclusions: This research is providing a tool to evaluate the accuracy of single outdoor samples by comparing the sample data to our database by zip code, date, and weather parameters. In addition to its use for interpreting single samples, this statistic may also be used to track relationships between specific aerosols by temperature, precipitation and geographical area, and possibly even to help predict future aerosol patterns. SR-112-05 Diseases Attributable to Common Indoor Molds H. Burge, EMLab, San Bruno, CA Objective: Molds are abundant in both outdoor and indoor air, with the vast majority of exposure occurring outdoors. However, indoor growth presents the possibility of exposure to higher concentrations of spores and other materials associated with fungal growth. We have reviewed the current peerreviewed literature focusing on diseases caused by fungi that are commonly recovered from air and surfaces in the indoor environment. Methods: The Web of Science was used for the literature search through a link with the University of Michigan. Only peerreviewed literature was used, and conference proceedings were not included even if peer-reviewed. The focus was on the past 10 years (2004–2014), and approximately 150 papers were finally a part of this review. Results: Penicillium, Aspergillus, Cladosporium and Alternaria are commonly isolated from indoor air, while Penicillium, Aspergillus, Stachybotrys, Acremonium and Chaetomium are common on surfaces. All may cause sensitization in susceptible people. Most sensitizing exposure occurs outdoors but symptoms may be exacerbated by indoor exposure. Aspergillus fumigatus is also a common sensitizers. Infections caused by indoor fungi are rare except in severely immunocompromised patients. Aspergillus fumigatus and, less commonly, other Aspergillus species are the most common opportunistic fungi. Cladosporium, Alternaria, and Penicillium infections are extremely rare in normal healthy individuals, and are generally caused by species not common indoors. Virtually all fungi produce toxins depending on genetics and environmental conditions. Almost all exposure to fungal toxins occurs by ingestion. Toxigenic species of Aspergillus are recovered from indoor environments but may not produce their toxins on indoor substrates. Cladosporium produces toxins of apparently low toxicity. Stachybotrys chartarum clearly produces potent toxins, although there remains no good evidence that indoor exposure is sufficient to produce the disease states that are commonly reported. Conclusions: Overall, allergy exacerbation is by far the most likely response to indoor mold growth, but only in previously sensitized people. The risk of infection and toxicosis related to exposure to these molds is very low. This information should help investigators and physicians to educate their clients about the risk of illness related to mold growth CS-112-06 A Case Study on Investigation into Environmental Sources of Legionella Bacteria at a Recreational Spa Facility M. Canright, J. Martinelli, Forensic Analytical Consulting Services, East Rancho Dominguez, CA Situation/Problem: In recent years, Legionella bacteria have been the subject of much attention in the scientific community, the public, and the media. As understanding of the bacteria’s ecology, epidemiology, and its role in various water systems has improved, advances have been made in the techniques for the identification and investigation of environmental sources in various settings. The case study will present a risk assessment and investigation into environmental sources during a cluster of Legionellosis at a recreational spa facility. Five cases of Legionnaire’s disease were epidemiologically linked to the spa, which led to investigation by the local regulatory agency. This presentation will review the methods, data collection and findings of the risk assessment investigation and discuss various project considerations and lessons learned. Resolution: The presentation will detail the investigation process and methodology and review recommended controls that were implemented to reduce the risk of exposure both during and after the investigation conclusion. The role of the local regulatory agencies, the assistance and hindrances associated with their involvement, and involvement of the local media will also be discussed Results: Several potential environmental sources were identified and addressed during the course of the investigation. Short and long-term administrative and engineering controls were implemented that resulted in successful reductions in sample positivity rate and bacteria concentration and were effective in controlling the onset of new cases linked with the facility. Despite significant improvements, the local regulatory agency enforced additional controls and testing requirements. PO113 Ergonomics - Sprains, Strains, and Strategies Tuesday, June 2, 2015, 10:30 AM - 12:30 PM SR-113-01 Sitting time, Obesity, and Injury at Work T. Lin, T. Courtney, D. Lombardi, S. Verma, Liberty Mutual Research Institute for Safety, Hopkinton, MA Objective: Injuries pose a significant burden on working populations worldwide, and lately obesity has been suggested as a risk factor. We examined whether obesity was associated with injury at work, and then moved upstream along the causal chain to investigate whether time spent sitting at work contributed to weight gain. Methods: Two studies were conducted using a nationally representative cohort, the National Longitudinal Survey of Youth 1979 (NLSY79). The first study evaluated the association between obesity and injury at work using generalized estimating equations (GEE) and random-effects logistic regression. Obesity was measured as body mass index (BMI) based on self-report height and weight, and demographic profiles (age, gender, education, race and ethnicity) and job characteristics (work hours, hourly wage, environmental hazards, physical demands, and industry) were incorporated as control variables. In the second study, we treated BMI as the outcome, and the primary explanatory variable was “time spent sitting” extracted from O*NET (Occupational Information Network) and linked to individuals in NLSY79. To assess the association between sitting time and BMI, we used fixed-effects models, which control for the effects of time-invariant factors. We included in the regression models additional time-varying variables such as leisure-time physical activities and work hours, and conducted a series of robustness checks. Results: Results from the analyses were consistent with our hypotheses. For the first study, the GEE and random-effects regression indicated that obesity was associated with 25% or higher odds of injury at work [OR =1.25, 95%CI = 1.12-1.39, p < 0.001]. For the second study, longer sitting time at work was significantly associated with higher BMI for the overall sample (p < 0.05) and men (p < 0.01). For women, the association was not significant. Conclusions: Our first study indicated that obesity may predispose employed U.S. adults to workplace injury, while the second provided further support for initiatives to reduce workplace sedentariness as a means of reducing the risk of obesity and related health and safety outcomes. Key study strengths included the use of nationally representative cohort data to examine these relationships prospectively across a broad range of industries and occupations as well as extensive robustness checks. Further research is needed to better clarify the mechanisms underlying both associations. Lessons Learned:The case study demonstrates the importance of preparation in maintaining domestic water systems and controlling biofilms and organisms such as Legionella bacteria. The development and implementation of a proactive water management program that includes elements to effectively manage site-specific water related waterborne pathogens risks is essential for maintaining control of water systems and sources. www.AIHce2015.org 31 SR-113-02 Development of a Fatigue Failure-Based Ergonomics Assessment Tool for Low Back Disorder Risk S. Gallagher, Auburn University, Auburn, AL Objective: The objectives of this research were to examine the efficacy of using fatigue failure theory to develop a risk assessment tool for low back disorders and to evaluate this approach using a published database of low back disorders. Methods: Data from cadaver studies of lumbar motion segments subject to fatigue loading at different percentages of ultimate strength (US) were analyzed using Weibull analysis. The resulting data was categorized into 5 categories based on estimated US of the specimens. The categories included < 30% US (19 specimens), 30-40% US (19 specimens), 40-50% US (21 specimens), 50-60% US (16 specimens), and > 60% US (15 specimens). Weibull analyses were performed on each category to estimate the distribution of cycles to failure for each category of ultimate strength. Non-linear regression was used on the characteristic life (n) to develop a relationship between cycles to failure and ultimate strength category. Results of this regression were then used to estimate the amount of damage expected per cycle at the different deciles of ultimate strength. To examine the relationship of the expected rate of damage accumulation at different level of US, an existing database published by Zurada et al. (1997) was used. For this analysis, it was assumed that the peak load moment was positively correlated with spinal loading. Both peak load moment and frequency of lifting data were divided into deciles of risk for the analysis. A “daily dose” of exposure was developed by multiplying the estimated damage per cycle (for a given peak moment decile) multiplied by the frequency of lifts (per hour) times 8 hours/day. Results: A dose-response relationship was observed between the cumulative load estimates of the new assessment tool and the probability of high-risk group membership for low back disorders. The low risk condition (referent) was assigned a risk of 1.0. The odds ratios and confidence intervals for low back disorders for other risk levels were as follows: Low-Medium (OR=3.8, 95%CI = 1.1, 13.8), Medium (OR=6.7, 95%CI=1.9, 23.7), Medium-High (OR=7.8, 95%CI = 2.2, 26.9), and High (OR=11.9, 3.4, 42.1). Conclusions: While numerous ergonomics exposure assessment tools have been developed to assess MSD risk, none to date have been predicated on fatigue failure theory. This study suggests the need for the development of MSD exposure assessment tools to evaluate injury risk using fatigue failure as a basis. SR-113-03 Observation-Based Posture Assessment: Toward a Best Practice Approach D. Andrews, P. Weir, University of Windsor, Windsor, ON, Canada; B. Lowe, NIOSH, Cincinnati, OH Objective: This podium session will describe an observational approach for assessing postural stress of the trunk and upper limbs that is intended to improve risk analysis for prevention of musculoskeletal disorders in the workplace. Methods: As outlined in a recent document published jointly by the National Institute for Occupational Safety and Health (NIOSH) in the United States and the Centre of Research Expertise for the Prevention of Musculoskeletal Disorders (CRE-MSD) in Canada, this approach is founded in recent research evidence and was developed to help practitioners. These studies have evaluated 32 AIHce 2015 | May 30 – June 4 | #AIHce how much time it takes observers to classify specific trunk and upper limb postures, how frequently observers are likely to make posture classification errors, and the magnitude of these errors. The frequency and magnitude of posture classification errors depend on how many categories (levels) are available from which to classify the specific posture. Results: Experimental evidence suggests that optimal posture analysis performance is obtained by partitioning trunk flexion range of motion into 4 categories of 30° increments; trunk lateral bend into 3 categories of 15° increments; shoulder flexion into 5 categories of 30°; shoulder abduction into 5 categories of 30°; and elbow flexion into 4 categories of 30°. These categories are suggested because they optimize how rapidly and accurately analysts can visually judge posture. This presentation will offer several general guidelines for the video recording of posture (e.g., camera position, field of view, lighting, duration of recording) and for the posture analysis process (e.g., benefits of digital video, computer software, training, use of visual references). Conclusions: The new document, US DHHS (NIOSH) publication 2014-131, is freely available online (http://www.cdc.gov/niosh/ docs/2014-131/default.html), and can assist health/safe ty, ergonomics, and risk management/loss control practitioners who conduct job/worksite assessments of lifting, pushing, pulling, carrying, and/or manual handling risk factors. CS-113-04 Evaluating and Improving Short and Long Term Shoulder Injury Risk C. Shulenberger, Bureau Veritas North America, Inc., Ashland, OR Situation/Problem: Evaluating and improving the short and long term risk of shoulder injuries are quite complex. Currently there is no consensus Shoulder Risk Assessment Model exists like that for Manual Material Handling and the Distal Upper Extremities. Resolution: A recent review of the literature indicated that the following factors have shown significance to shoulder injuries (odds ratio) but only in combination with other risk factors. Forceful exertion- Applied force has the highest relationship to injury development. Shoulder posture- Overhead work is shown to be a critical factor in most studies. Direction of movementThe direction of movement also impacts relative strength and shoulder stability. Repetition- This factor is confounding because with very light loads the odds ratio actually goes down in some studies. Muscle fatigue- Impacts a worker’s MVC and therefore applied force. Therefore, injury risk is impacted by recovery time. Body work posture- Shoulder strength varies in a standing, sitting or kneeling work posture. Gender and AgingFemales typically demonstrate 55-65% of male upper extremity strength. Aging is often associated with previous exposures (cumulative trauma and/or previous injury) and decreased strength Results: 1. Applied Force was the most critical risk factor. 2. Posture and Repetition without consideration for Force were not as significant. 3. Aging and Gender related factors should not be ignored when evaluating shoulder risk. 4. Currently a usable model for assessing shoulder risk like the EHS professional has for Manual Material Handling and Distal Upper Extremities does not exist. Therefore, further efforts in this area are necessary. Lessons Learned: 1. Determine what your company means by High, Medium, Low Risk and OK and provide percentile definitions. 2. Utilize Existing Workers Compensation data (short term) to target existing Tasks/Jobs for Risk Assessment and Improvement (short term). 3. Develop Design and Operational Guidelines to reflect the Risk Guidelines and apply the As Low As Reasonably Possible (ALARP) approach per ANSI 590.3 (medium term). 4. Work with researchers to develop a Risk Model that integrates Force, Posture and Repetition based as best possible (consistent with) on the ongoing research findings (long term). CS-113-05 A Proposed Mobile Application to Include Multiple Ergonomic Assessment Tools N. Ketzler, S. Gallagher, R. Sesek, C. Seals, R. Thomas, Auburn University, Auburn, AL; S. Gibson, Ergonomics Applications, Salem, SC Situation/Problem: Multiple ergonomic assessment tools are freely available to practitioners in the workplace. Many of these tools are used on the go, often paper forms on a clipboard. Paper-based versions of ergonomic assessment tools may not be the most efficient analysis method, particularly since one does not get immediate feedback. Our goal was to develop a mobile application to assess ergonomic risks for different tasks. The application incorporates multiple ergonomic assessment tools commonly used by ergonomists into one platform. The application also utilizes the new flowcharts that have been incorporated into the AIHA Ergonomic Toolkit. Resolution: A case study was then performed by a group of ergonomists with varying levels of ergonomics expertise to determine the usability of the mobile application. Different workplace tasks were analyzed using the mobile application to assess the risk of each task. The mobile application was compared to the original paper-based method to determine the increase in efficiency. Results: Users found the mobile application to be more efficient and easier to use than the original paper-based copies of the ergonomic assessment tools in the workplace. Lessons Learned: Mobile Applications have the potential to enhance the availability and application of existing ergonomic assessment procedures and tools. CS-113-06 The Aging Workforce: Changes in Muscle Physiology B. McGowan, Humantech, Inc., Ann Arbor, MI Situation/Problem: In 2009, older workers (55 and over) represented 19% of the U.S. workforce. This group is the nation’s fastest growing segment of the workforce. The Bureau of Labor Statistic projects, for the period between 2006 and 2016, that there will be an 84.3% increase in workers age 75 and over, an 83.4% increase in workers between the ages of 65 and 74, and a 36.5% increase in workers between ages of 55 and 64. Many industrial job duties require physical demands such as lifting, lowering, pushing, pulling, bending, twisting, reaching, climbing, and kneeling, among others. Each of these job demands require forceful, repetitive, or sustained muscle contractions. For the younger worker, the physical capabilities for job duties are well defined and have resulted in the publication of several design standards. Unfortunately, the physical capabilities of the older worker have not been studied as extensively, and as a result, design standards for older workers are hard to find. The purpose of this presentation is to summarize the muscle physiology changes that occur as we age and to propose design standards for the aging workforce. Resolution: Research was conducted to find citations related to changes in muscle physiology as we age. Topics of interest included changes to sensory/motor perception and control, strength, movement control, and cardiovascular capacity. Results: The review of literature found several key changes in muscle physiology as we age. There is a loss of muscle mass and strength, and a consequent functional impairment that occurs starting at 40 years old and continues with increasing age. Key performance changes that occur as a result of the changes in muscle physiology as we age include: 1) movement speed slows during grasping and reaching, 2) movement precision (deceleration) decreases, 3) range of motion is reduced, 4) muscle strength decreases, 5) force control decreases, as adults grip twice as hard to compensate, 6) force perception decreases, and 7) muscle endurance decreases. Based on these findings, design standards for lifting, lowering, pushing, pulling, bending, twisting, reaching, climbing, and kneeling were developed for the aging workforce. Lessons Learned: The changes in muscle physiology as we age are real, and impact workers capabilities to perform work. Understanding the capabilities of the older worker allowed for the development of design standards to optimize performance and to minimize musculoskeletal disorders for the aging workforce. PO114 Healthcare Industries Tuesday, June 2, 2015, 10:30 AM - 12:30 PM CS-114-01 The Effect of Microcystin Contamination on Drinking and Process Water in Healthcare M. Valigosky, A. Ames, S. Milz, University of Toledo, Toledo, OH F. Akbar-Khanzadeh, UT HSC College of Medicine, Toledo, OH Situation/Problem: Harmful algal blooms are a worldwide issue and on the rise in Lake Erie. The harmful algal blooms that have been increasing in severity over the last few years affect recreational boating, tourism, and commercial and recreational fishing. While microcystin is generally considered a water quality issue, there are significant public health concerns resulting in a financial burden to the health care industry. Acute effects of microcystin include nausea and diarrhea whereas chronic exposures are associated with illnesses such as liver cancer. On August 2, 2014, the City of Toledo issued a water advisory initially advising against drinking and/or dermal contact due to microcystin affected water. The levels of microcystin in the drinking water were reportedly above the World Health Organization guidelines of 1 part per billion (ppb). Resolution: Normal microbiological contamination is typically removed by consumers through boiling or other means, however boiling water will not reduce or eliminate microcystin concentrations. Since microcystin is not easily removed from the treated city water, hospitals were forced to initially cease hemodialysis and elective surgeries. High temperature autoclaving of surgical instruments may result in concentrating the microcystin on the instruments that then contact internal tissues. It was necessary for the hospitals to obtain large volumes of water from alternate sources to allow for patient care, food preparation, and general use within the institutions. www.AIHce2015.org 33 Results: The response of the hospital to cancel elective surgeries resulted in financial issues. In general, hospitalizations involving surgery account for nearly half of a typical hospital’s revenue. Nearly $500,000 is lost per day in a typical 200 bed acute care hospital. In this case, the hospital confirmed that its reverse osmosis system for hemodialysis was operational and was able to resume dialysis treatments on the second day of the event. Lessons Learned: Hospitals and the healthcare industry should be prepared to deal with a water advisory due to water affected by microcystin. This has potential to occur annually in Northwest Ohio until measures are taken to improve water quality of the western basin of Lake Erie accompanied by solutions at the water treatment facilities. SR-114-02 Evaluation of Legionella Pneumophila Contamination in a Research Center’s Water System by Quantitative RealTime PCR Isolation and Colony J. Kominsky, Environmental Quality Management, Inc., Cincinnati, OH Objective: This study defined the extent of water contamination by Legionella pneumophila in a research center’s water system and compared quantitative real-time polymerase chain reaction (QRTPCR) with the conventional culture method “Gold Standard.” Methods: Twenty-four potable water samples were collected in sterile 1-liter polypropylene bottles containing sodium thiosulfate to neutralize the residual-free chlorine. Fourteen sterile cotton-swab (Fishers FinestTM) samples were collected from biofilm on faucet aerators and other surfaces. Samples were processed within 48 hours of collection. Legionella was isolated using “Procedures for Isolation of Legionella from the Environment” (CDC 2005). Real-PCR analysis was performed based on sequences for detecting Legionella pneumophila patented by the U.S. EPA (U.S Patent 6,387,652). Samples were analyzed by a laboratory that successfully participates in the CDC ELITE Program. Results: Legionella pneumophila was the only species of Legionella detected by QRT-PCR or by plate culture. Real-time PCR detected L. pneumophila serogroup-1 in 42% of water samples compared to 25% by conventional culture. Using conventional culture as the Gold Standard shows that QRTPCR has a false-positive rate of 24% and a false-negative rate of 14% in potable water samples. Real-time PCR detected L. pneumophila serogroup-1 in 21% of surface swab samples compared to 14% by conventional culture. Using culture as the Gold Standard shows that QRT-PCR has a false-positive rate of 15% and a false-negative rate of 0% for surface swab samples. False-positive rates in QRT-PCR may be due to the presence of viable but non-culturable Legionella, or the presence of nonviable Legionella in the samples. Conclusions: Real-time quantitative PCR is sensitive enough to detect lower level Legionella contamination in comparison to the culture method, but should be complemented by conventional culture. Real-time PCR could be particularly useful when an outbreak of Legionnaires’ disease occurs because of the short analysis time compared to conventional culture. False-positive readings of Legionella samples may overestimate the risk of infection and could lead to unnecessary decontamination procedures. Hence, positive QRT-PCR results must be interpreted with caution. A combination of thermal-eradication and copper-silver ionization effectively eradicated Legionella in the water system. 34 AIHce 2015 | May 30 – June 4 | #AIHce SR-114-03 Exposures to Waste Anesthetic Gases: Case Studies during Surgical Procedures S. Derman, Medishare Environmental Health & Safety Services, Cupertino, CA Objective: Nitrous oxide and halogenated agents (e.g. Sevoflurane, Desflurane, and Isoflurane) are utilized during surgical procedures to keep patients anesthetized. We evaluated exposures and compliance with NIOSH, ACGIH, and OSHA criteria using real time, direct reading instrumentation. Sources of significant leaks were promptly identified and promptly corrected to minimize exposures. Methods: Real time exposure monitoring was conducted at over 200 locations during and following surgical procedures to evaluate exposures and identify the sources of significant/ noteworthy exposures. Results: Using primarily direct reading instrumentation, with NIOSH Sampling and Analytical Methods as back-up, exposures were evaluated, sources of noteworthy levels were identified, with prompt feedback to anesthesia and healthcare personnel. Exposures exceeding the NIOSH REL were identified 5% to 7% of the time. Working in conjunction with Anesthesia and healthcare facility personnel, all significant exposure sources were rectified within twenty-four hours of identification. Conclusions: This is a highly efficient and effective method of evaluating and controlling exposures. Surgery, Anesthesia, Nursing, and Facilities personnel must understand and support the rationale and methods used by the industrial hygienist. The industrial hygienist must understand and apply infection control and surgical techniques and processes. The IH must also have the presence of mind and mindset to work in highly stressful, critical care environments to make this process work. CS-114-04 Balancing Patient and Employee Safety: Peracetic Acid Use during Disinfection in Healthcare M. Squillace, Mayo Clinic, Rochester, MN; M. Austin, Mayo Clinic, Rochester, MN; J. Nesbitt, Mayo Clinic, Rochester, MN Situation/Problem: Healthcare-associated infections (HAI) represent a significant burden to patients and to the entire healthcare industry. It is estimated that in 2011, approximately 1 in 25 hospital patients had at least one HAI and approximately 75,000 of those patients died during hospitalization. Efforts to control HAIs have resulted in new disinfectants and novel applications of existing disinfectants which are being marketed to healthcare. This case study provides an overview of a pilot project using a novel peracetic acid solution, marketed for daily cleaning and disinfection. The project team included representatives from Environmental Services, Infection Prevention, Safety, Industrial Hygiene, Facilities Engineering/Maintenance, and the chemical Manufacturer. The pilot project was initiated on three patient care units, strictly following manufacture recommendations. During this pilot project, management received numerous concerns about pungent odors, dermal and respiratory irritation during use of the disinfectant by Environmental Services staff. In 2014, ACGIH published a TLV STEL of 0.4 PPM for Peracetic Acid based on upper respiratory tract, eye, and skin irritation. Resolution: An industrial hygiene assessment was performed during dispensing and cleaning operations with a commercially available peracetic acid cleaner/disinfectant. Results: The use of peracetic acid during cleaning and dispensing operations resulted in exceedance of the ACGIH TLV in the majority of samples. The pilot project was immediately discontinued and staff informed of exposure data and exposures exceeding the TLV. Lessons Learned: Lack of familiarity of the sampling method and new TLV by staff, the analytical laboratory, manufacturer of the disinfectant, and the manufacturer of the sampling media led to delays with obtaining valid exposure assessment samples. A flexible, yet comprehensive strategy was needed to evaluate the health and safety implications for introducing new disinfectants into the workplace. CS-114-05 Proactive Mitigation to an Anticipated Increase in Occupational Injuries When Opening a New Healthcare Facility A. Jouras, EORM, San Jose, CA Situation/Problem: Opening a new healthcare facility is a challenging undertaking that involves managing a variety of new workplace hazards such as the new space design, new equipment, new workflows, staffing changes, etc. Resolution: While employees naturally figure out the most efficient way to execute their job over time, they inherently lose some of that efficiency when moving to a new space because of these factors. Results: As employees implement different workarounds to try to regain their lost efficiency as they adjust to the new facility, there is an increased potential for occupational injuries due to both unsafe work practices and unforeseen workflow hazards. Lessons Learned: During this case study review of opening a new healthcare facility in the California San Francisco Bay Area, we will discuss how implementing a proactive approach to workflow analysis prior to the facility opening can help identity and mitigate unanticipated hazards and prevent an increase in occupational injuries after operations begin. SR-114-06 Anti-Oxidant Rich Diet, Healthy Life-Style and a Rigorous Radiation Exposure Control Program Protect Healthcare Employees from Radiation-Induced Oxidative Damage R. Bardhan, M. Richard, R. Heath, E. Maples, C. Lungu, University of Alabama at Birmingham, Hoover, AL Objective: Reactive oxygen species (ROS) are defined as free radicals of oxygen and hydroxyl ions which at higher concentration create oxidative stress and may cause many diseases including cancer. Antioxidants act to inactivate ROS and minimize oxidative stress. Ionizing radiation (IR) is one of the main sources of ROS generation. Several studies have indicated that prolonged exposure to low dose IR causes ROS generation in cancer patients and preclinical animal models. This pilot study determined potential health risks associated with oxidative stress due to long-term low-dose IR exposure in healthcare personnel in a university hospital setting. The present study also analyzed the effects of dietary habits and lifestyles in radiation-induced oxidative stress. Methods: Participants were chosen from a healthcare workforce occupationally exposed to IR for more than 10 years. Employees in the non-radiation sector were included as study controls. A total of 30 participants were included in the study following receipt of IRB approval. Responses to study related questionnaires and informed consents were obtained prior to clinic visit. Exposures to IR (measured by personal dosimeter) were obtained from the University Radiation Safety Department. Oxidative Stress is directly measured by intracellular ROS level in the blood erythrocytes and indirectly by decrease in total antioxidant level in urine samples. Genotoxicity was determined from the buccal smears by micronucleus test. Data were analyzed by performing logistic regression and unpaired Student’s t-test. Odds ratios and 95% confidence intervals were calculated. Results were considered significant if p-value is less than 0.05. Results: Participants’ radiation exposures were below NRC whole body maximum permissible limit (5000 mrem/year). No significant differences were observed between experimental and control participants regarding ROS, anti-oxidant levels, and micronucleus. Responses to questionnaire indicated regular consumption of anti-oxidant rich diet (fruits, vegetables, nutritional supplements) and practicing healthy life-style (nonsmokers, nonalcoholic, regular exercise) by the participants. Conclusions: Results indicated that regular consumption of antioxidant rich diet, practicing healthy life-style and implementation of a rigorous radiation exposure control program might protect radiation workers from the harmful effects of ROS following long-term low dose radiation exposure. PO115 Laboratory Health and Safety Tuesday, June 2, 2015, 10:30 AM - 12:30 PM CS-115-01 Advancing Safety Culture Academic Research Laboratories: Next Steps L. Gibbs, Stanford University, Stanford, CA Situation/Problem: Many academic research organizations are attempting to evaluate their respective safety cultures. How does one evaluate the safety culture within a laboratory research organization? What is the starting baseline? What are critical variables? What tools can be developed to help advance the safety culture in an academic research workplace? These are many of the questions currently being pondered throughout higher education. Resolution: The basis of most organizations is they have cultural norms that have been established over time and at some point change is desired to advance on a scale of expected improvement. Stanford University undertook an extensive self-evaluation of its laboratory safety culture in 2013-2014, resulting in identification of a number of areas where improvements in laboratory safety culture could be made. A series of recommendations were made by this Laboratory Safety Culture Task Force. Results: This presentation will present results of a case study that identified critical variables related to laboratory safety cultures and values, and describes a program to advance a culture for the conduct of safe science at Stanford. Data from surveys developed as part of the evaluation as well as from ethnographic interviews and process inputs will be presented. Outcomes to date will be provided as well as the efficacy of various outreach and support approaches. Described will be the review process, baseline safety culture evaluation, results to date on next steps in the advancement of laboratory safety culture, and musings regarding future directions for the program. www.AIHce2015.org 35 Lessons Learned: Safety culture requires constant management, monitoring and nurturing to assure advancement of a robust safety culture. The organizational uniqueness of academic research universities creates significant and differing challenges from more hierarchical organizations. Critical to initiating sustainable safety culture advancement is a good understanding of the cultural and organizational variables to influence a strong, positive laboratory safety culture. CS-115-02 Implementing GHS in Labs A. Mims, C. Davis, Eli Lilly & Company, Indianapolis, IN Situation/Problem: The challenge is how to interpret the Globally Harmonized System (GHS) for labelling and classifying chemicals in laboratories regulated under the OSHA’s Lab Standard. The OSHA lab standard requires additional worker protections for work with Particularly Hazardous Substances (PHS). These include select carcinogens, reproductive toxins, and substances which have a high degree of acute toxicity. This case study provides an example of GHS implementation at a global company where U.S. regulation is in the implementation stage, while the European Union and other nations have already adopted similar rules. Resolution: Teams of HSE professionals in partnership with lab employees have worked together to create a toolkit of information describing the process to identify PHS materials, rules for handling in the laboratory, and timelines for implementation. Results: Updated information accessible from the GHS toolkit includes: GHS Compliant Chemical Hygiene Plan (CHP); Job Aids for identifying PHS materials using GHS; Train the Trainer PowerPoint for key aspects of GHS; GHS Compliant Lab Training; GHS Compliant Generic Safety Data Sheets (SDS) for research compounds; Labels and commonly used lab items compliant with GHS; Lab Posters, and - Employee challenge test for identifying GHS pictograms Lessons Learned: Although GHS is regulated under OSHA’s Hazard Communication standard, there are also implications to the OSHA Laboratory Standard. Utilizing multidisciplinary teams to identify challenges and solutions is an efficient method to approach the issue and drive resolution. Though this effort is in implementation stages, early feedback suggests that a simple approach can be effective. SR-115-03 Evaluating Staff Recognition of Chemical Hazards in the Laboratory Environment T. Barton, St. Jude Children’s Research Hospital, Memphis, TN Objective: In order to assess risk effectively, staff must first be able to recognize hazards. This study was performed to assess laboratory management’s proficiency at identifying the chemical hazards to which workers were exposed in their labs. Methods: Annually, researcher staff from approximately 150 research laboratories self-declare the hazards to which their employees are exposed using an institutional database known as the Work Hazard Assessment Tool (WHAT - modeled on the LHAT system used by the University of California). These declarations provide the researcher with an outline of the training, controls, and administrative tasks to be performed by lab staff. In the Chemical Safety section of the WHAT, each PI or lab manager must declare the chemical hazards present in the lab. This references hazard categories such as work with 36 AIHce 2015 | May 30 – June 4 | #AIHce flammable liquids, formaldehyde solutions, water-reactive compounds, pyrophoric compounds, etc. Laboratories are also required to maintain an inventory of chemicals handled in their labs using Chemtracker software. I evaluated the researcher’s proficiency at identifying chemical hazards by cross referencing their WHAT declaration with their inventory of hazardous chemicals. This was done by searching each lab’s inventory for specific chemicals or by sorting by hazard class. Hazard class determinations made by Chemtracker were verified against MSDS hazard declarations and laboratory interviews to ensure that chemical hazard class designations and laboratory chemical applications were appropriate for the purposes of this evaluation. Results: More than 40% of the research labs included in this study failed to declare at least one category of chemical hazard. Work with water-reactive chemicals and handling formaldehyde solutions were the most commonly over-looked chemical hazards. This suggests that lab managers may be overlooking regulatory requirements and may not be providing staff members with adequate chemical training and storage requirement information. Conclusions: The professional experience of laboratory research management is not necessarily sufficient to ensure that effective hazard communication is provided to laboratory research technicians and other staff members. Deficiencies in hazard awareness may lead to incorrect assumptions about laboratory risks and inadequate measures intended to mitigate these risks. CS-115-04 Reducing Researcher Exposures to Isoflurane during Animal Surgery E. Mellas-Hulett, J. Labossiere, T. Buttolph, University of Vermont, Burlington, VT Situation/Problem: Researchers performing surgery on animals are potentially exposed to waste anesthetic gases (WAG). The only U.S. OEL is the NIOSH REL of 2 ppm, which was established in 1977 for all WAG. Isoflurane was introduced into use in 1980 and was not included in the research for establishing the threshold. Established international OELs include: United Kingdom at 50 ppm, Sweden at 10 ppm (20 ppm STEL), and Ontario, Canada at 2 ppm. Prior to implementation of controls, exposure levels as high as 52 ppm have been found in labs performing surgery on small animals. Significant exposures have been observed at various steps in the surgery, with peak exposures ranging from 30 to 47 ppm. Different surgery suite set-ups and differing surgery procedures have complicated a universal solution. With a decrease in research funding, money to upgrade localized ventilation or purchase of control measures is limited. A lowcost scavenging system was needed to assist labs in reducing exposures to WAG. Resolution: Risk was assessed for each step of the surgery process: filling the anesthetic gas vaporizer, induction of the animal, surgery procedure including scavenging or removal of WAG, and post-surgery. Potential exposure was measured using passive badges sampling at the breathing zone and the MIRAN SapphIRe Portable Vapor Analyzer sampling both at the breathing zone and area samples for various steps in the process. Results: Low-cost changes to the surgery apparatus, such as providing a seal to the induction chamber, and changes in work practices, such as filling vaporizers in a fume hood, have reduced exposures to WAG. When financially able, localized ventilation (e.g. snorkels) is the best method to reduce WAG. Scavenging units with activated charcoal filters have also shown to lower exposures. A researcher-designed scavenging unit cost less than $200, which is more affordable than manufactured units at $1200-$4000. With control measures in place, exposures decreased to 0.22 to 2.6 ppm. Lessons Learned: Localized ventilation or low-cost scavenging units provide the greatest protection to researchers from WAG during small animal surgery. CS-115-05 Case Study: The OSHA Salt Lake Technical Center Chemical Hygiene Plan D. Anderson, OSHA/Salt Lake Technical Center, Sandy, UT Situation/Problem: Salt Lake Technical Center (SLTC) provides a multi-disciplinary team approach in support of OSHA’s complex and highly visible investigations. Its mission is to provide technical leadership, expertise and services in the evaluation and control of workplace hazards. The laboratory is accredited by the AIHA Laboratory Accreditation Programs (AIHA-LAP) and analyzes over 400 analytes with an inventory of over 4500 chemicals. Resolution: The risk of laboratory injuries can be reduced through adequate training, improved engineering, good housekeeping, safe work practice and personal behavior as required by the Laboratory Standard 29 CFR 1910.1450. Where hazardous chemicals, as defined by the Laboratory Standard, are used in the workplace, policies and procedures have been developed that protect employees from unacceptable exposure and keep OSHA regulated substance exposures below the limits specified in the permissible exposure limits (PEL) table listed in 29 CFR 1910, subpart Z. The Chemical Hygiene Plan (CHP) and associated documents state the policies, procedures, and responsibilities used to protect employees. Results: This case study will look at the evolution of the OSHA Salt Lake Technical Center Chemical Hygiene Plan from over 150 pages that had to be manually updated annually to an umbrella document of 26 pages which serves as the gateway for training and accessing laboratory safety and health policies, standard operating procedures, work instructions, and other supporting documents. Lessons Learned: SLTC employees now utilize the CHP to drill down and access safety and health polices, standard operating procedures, and job hazard analyses. Additionally, new documents are easily linked to the CHP as they are developed or updated without major rewrites of the entire document. CS-115-06 EHS Issues of Digital Fabrication D. Herrick, P. Greenley, J. Doughty, W. Mbah, MIT, Cambridge, MAA. Kalil, MIT Lincoln Laboratory, Lexington, MA Situation/Problem: 3D printers, laser cutters, waterjets, robotic arms, and other digitally controlled devices can enable people who do not have traditional machining skills to fabricate almost anything; this revolution has arrived at a lab or shop near you (or will soon). The equipment powering this “maker movement” presents a variety of potential hazards to users who may not be accustomed to recognizing, evaluating, or controlling EHS issues. In addition, ensuring the safe use of these evolving technologies challenges EHS professionals to become familiar with the often substantial and varied requirements for location, infrastructure, and controls which accompany digital fabrication processes. Resolution: Types of equipment typically found in a digital fabrication shop and the anticipated infrastructure needs associated with their installation and safe operation will be reviewed. Results: Administrative and engineering controls which have helped to minimize risk from hazards associated with digital manufacturing tools, whether these tools were facilitized into new construction or existing lab/shop space, will be presented. Lessons Learned: Both EHS staff and tool users benefit from knowing about and discussing ways to recognize, evaluate, and control hazards associated with this exciting and rapidly growing area of work. PO116 Respiratory Protection II Tuesday, June 2, 2015, 10:30 AM - 12:30 PM SR-116-01 Simulation of N95 FFR Efficiency to Determine a Potential Protection Factor P. O’Shaughnessy, University of Iowa, Iowa City, IA Objective: The “95” in the designation “N95” of a filtering facepiece respirator (FFR) refers to the lowest efficiency provided by the respirator occurring at any one of all airborne particle sizes. It therefore does not indicate the percent reduction in aerosol concentration; a quality of a respirator that is referred to as a protection factor. The OSHA “assigned protection factor” is a function of the filtering qualities of the FFR and potential leaks through the faceseal. The objective of this study was to use numerical simulations to determine the ideal, or “potential”, protection factor (PPF) that occurs without leaks for an N95 subjected to aerosols derived from a range of lognormal distributions. Methods: Using the best available equations that model the performance of an N95 FFR, including fiber charging effects, an overall model of N95 efficiency across a wide range of particle sizes (1 nm to 100 micrometers) was developed. This effort resulted in an efficiency curve relative to particle size for a typical N95 FFR with a minimum efficiency of exactly 95%. With that curve, the mass of all particles collected by the filter could be computed to determine a PPF of the FFR. The PPF was determined for 42 spherical, unit-density aerosols with mass median aerodynamic diameters (MMAD) ranging from a 2–14 (by every 2) and geometric standard deviations (GSD) from 1.6– 3.6 (by every 0.4). The PPF was computed in terms of both total mass and respirable mass. Results: The worst-case aerosol occurs when then the MMAD is low and the GSD is high. This results in a wide distribution of small particles that overlap the N95 efficiency curve in the region where it dips to 95%, which occurs between 0.01 - 0.3 micrometers. Regardless, this FFR has a PPF of 99.86% for all mass and 99.79% for respirable mass for the lowest MMAD (2) and highest GSD (14) analyzed. Dusts with MMAD’s > 4 micrometers had PPF values above 99.96% regardless of GSD. Conclusions: Results of this analysis indicate that N95 FFR are highly protective if leakage is not considered. The OSHA assigned protection factor (APF) for this respirator is 10 which translates to an overall efficiency of 90%. Given that the APF includes www.AIHce2015.org 37 faceseal leakage, the large discrepancy between the PPF and the APF indicates that the N95 FFR is either underutilized or overdesigned because of leaks. Future efforts should involve the development of FFRs that can be worn without developing leaks. SR-116-02 Comparing Real-Time Fit Factors to Traditional Fit Factors by OSHA Exercise for N95 Respirators M. Sietsema, L. Brosseau, University of Illinois at Chicago, Chicago, IL Objective: This project compares respirator fit using two methods: 1) the traditional OSHA fit test using a single Portacount and alternating measurements of particle concentration inside and outside the respirator and 2) a newly-developed “real-time” method that uses two Portacounts simultaneously measuring inside and outside particle concentrations. Validation will allow the latter method to be used to examine the concentration between specific healthcare tasks and traditional fit test exercises. Methods: Sixteen human subjects of varying face size (width and length) were recruited to participate in this study. After donning an N95 FFR subjects randomly performed a traditional or a realtime fit test, followed immediately by the opposite test without removing the respirator. For each test, subjects completed the 8 exercises as prescribed by the OSHA protocol. Fit factors for each exercise and for all exercises combined were compared between the two fit test methods using a correlation analysis. Results: The real-time fit factors ranged from 1 to 1,226. Traditional fit factors ranged from 2 to 2,020; Pearson’s correlation coefficients (r) of the fit factors for individual for the grimace exercise to 0.76 for exercises ranged from 0.03 the deep breathing exercise. The overall fit factor (all exercises combined) had a correlation coefficient of 0.47 (p = 0.07). No exercise had a significant difference in real-time mean versus traditional mean when compared using a student’s t-test (0.19 < p-value < 0.93). Conclusions: The significantly high correlation between overall fit factors for the traditional and real-time fit test suggest that the new method can be used in future experiments to further examine the effect of specific workplace tasks on respirator fit. The low correlation for the bending over exercise suggests that respirator fit may be dependent on the re-seating of the respirator on the face immediately after significant facial movement (i.e. the grimace exercise). SR-116-03 Filter Performance of N95 FFRs in Dry and Moderately Humid Air: Manikin-based Study with NaCl and Combustion Aerosols S. Gao, S. Grinshpun, J. Kim, M. Yermakov, Y. Elmashae, T. Reponen, University of Cincinnati, Cincinnati, OH; X. He, West Virginia University, Morgantown, WV Objective: To evaluate the filter performance offered by two N95 filtering facepiece respirators (FFRs) sealed on a manikin against combustion aerosol particles and conventional NaCl aerosol in dry and moderately humid air. Methods: Two N95 FFRs (A manufacturers were sealed challenged with combustion plastic) and NaCl particles (24.3 m3). A cyclic breathing 38 and B) obtained from different on a manikin head form and particles (generated by burning in a large exposure chamber pattern was simulated using an AIHce 2015 | May 30 – June 4 | #AIHce electromechanical Breathing Recording and Simulation System (BRSS; Koken Ltd., Tokyo, Japan) providing two mean inspiratory flows (MIFs) of 30 and 85 L/min. Two relative humidity conditions (RH≈20% and 80%) were applied to represent dry and moderately humid workplace environments. The total and size-selective particle concentrations inside (Cin) and outside (Cout) of the respirator were measured with a P-Trak condensation particle counter (8525, TSI, Inc., MN, USA) as well as a Nanocheck (1320, Grimm Technologies, Inc., Ainring, Germany). The particle penetration was determined as (Cin/Cout)×100%. Results: For Respirator A, the average total penetration of combustion particles was significantly higher than that of NaCl particles regardless of the MIF and the relative humidity. The penetration levels of combustion particles and NaCl particles ranged from 1.4% to 7.0%, and from 0.3% to 4.8%, respectively. Penetration increased with increasing MIF. The penetration at RH≈80% was significantly higher than that at RH≈20% for both aerosols and both MIFs, which can be attributed to the effect of high RH on electric charges on the filter fibers. The most penetrating particle size (MPPS) was identified below 100 nm for both aerosol challenges. No consistent change in the MPPS was observed with the increase of RH. Respirator B provided lower protection levels: the total penetration was 2.1% to 8.6% for combustion particles and 1.4% to 5.7% for NaCl particles. The effects of challenge aerosol and RH followed the same trend as obtained for Respirator A. The MPPS was also observed in the particle size range below 100 nm. Conclusions: The manikin-based testing with cyclic breathing showed that the filtration level of an N95 FFR obtained with NaCl particles may significantly underestimate its filtration efficiency against combustion aerosols. Higher relative humidity may reduce the filter performance. SR-116-04 Evaluation of the Effect of Head Strap Length on Facial Fit of N95 Filtering Facepiece Respirators M. Bergman, Z. Zhuang, A. Palmiero, D. Niezgoda, NIOSH/ NPPTL, Pittsburgh, PA Objective: A three-year study was performed to validate the scientific basis for the periodicity of fit testing by investigating changes in NIOSH-approved N95 filtering facepiece respirator (FFR) fit on a group of test subjects as a function of time. In this presentation, data from the periodicity of fit testing study is used to explore the relationship between head strap length and N95 FFR fit. The relationship of head strap length to N95 FFR fit has not been previously reported. Methods: A group of 229 subjects was initially enrolled and tested every six months. During each visit, subjects performed a total of nine fit tests using three samples of the same FFR model. The facial dimensions of all subjects were also measured during each visit to determine changes over time that may affect respirator fit. Seven FFR models were included in the study. Inward leakage and filter penetration were measured for each donned respirator to determine face seal leakage (FSL). Unstretched head strap length was measured beginning on the second or third visit. For each respirator model, a linear regression was performed on geometric mean (GM) FSL of individual respirator samples using data from all visits (dependent variable) to the unstretched top and bottom strap lengths of those samples (independent variables). Results: A total of 195 subjects completed the second visit and 134 subjects completed all seven visits. The data collected from all participating test subjects at each visit was used for this study. Among the seven FFR models, the mean top strap length ranged from 194.8 to 321.8 mm with relative percent standard deviation (%RSD) ranging from 0.31to 5.18. The mean bottom strap length ranged from 194.6 to 299.5 mm with %RSD ranging from 0.42 to 5.11. For four of the seven respirator models, top and or bottom strap length was found to have a significant (P < 0.05) correlation with GM FSL. Conclusions: Head strap lengths were found to be quite variable within some FFR models. Unstretched head strap length had some association with FFR fit. Further analysis of the data will be performed to explore the interaction of strap length with other factors such as weight changes and changes in facial dimensions to determine the effect on respirator fit. Future studies should be performed with respirators of controlled strap lengths to better understand the effect of length on respirator fit. SR-116-05 Particle Size Penetration of Diesel Particulate Matter through Respirator Filter Media K. Burton, J. Whitelay, A. Jones, University of Wollongong, Wollongong, NSW, Australia Objective: Diesel engine emissions are known to cause adverse health impacts including lung cancer, cardiovascular and irritant effects. The diesel particulate component of the emissions is in the nanoparticle size range. Respiratory protection is commonly used to mitigate worker exposure. Current test methods to evaluate penetration through respirator filter media may not consider smaller size particles due to the diameter of the challenge aerosol and the detection limit for the instrument. The objective of this study was to determine the Most Penetrating Particle Size (MPPS) through a range of commonly used respirator filters in Australia, to evaluate whether MPPS is included in standard testing criteria for respirator filtering efficiency. Additionally the project evaluated penetration through the filter media using diesel particulate, rather than NaCl, as the challenge aerosol. Methods: Emissions from a Perkins 4.4L diesel engine were fed into an experimental chamber. Penetration of these emissions was determined by sampling elemental carbon, using NIOSH Method 5040, before and after the respirator filter. A Scanning Mobility Particle Sizer with attached Condensation Particle Counter was used to measure penetration as a function of particle size. Results: Initial results indicate that when challenged with DPM, the MPPS varied for each of the respirator models. The filtering efficiency at the MPPS appeared to meet the requirements for P2 certification in Australia or N/P/R95 NIOSH certification requirements. Conclusions: Filtering efficiency in Australia is determined by challenging filter media with aerosolized sodium chloride and calculating penetration at designated flow rates. Current standard test requirements do not account for the differences in structure and chemical characteristics of DPM and sodium chloride nor do they include particle sizes below the instrument detection limit and diameter of the challenge aerosol. This study showed that the Most Penetrating Particle Size of diesel emissions through 3 commonly used respirator filters varies dependent on the filter and hence may not be included in filtering efficiency calculations. These findings will inform development of Australian and International Standards on the selection and evaluation of respiratory protection to ensure workers are protected against this common workplace carcinogen. SR-116-06 Development of a New Data Acquisition System for Recording and Analyzing In-Facepiece Pressures during NIOSH Breathing Machine Tests J. Parker, NIOSH, Pittsburgh, PA Objective: This paper describes the development and testing of a new data acquisition system for recording and analyzing the in-facepiece pressure tracings when respirators are tested for various performance criteria with the NIOSH breathing machine. These tests are used for evaluating the performance of self-contained breathing apparatus (SCBA). The current system utilizes a combination strip-chart recorder and signal conditioning unit. Historical data has shown that when respirators are tested on breathing machines, it is often found that in-facepiece pressure sample tracings will include very short duration spikes below zero. The problem is how to determine if the negative spike(s) truly represent(s) a negative facepiece pressure, or not. This decision determines if a test passed or failed. NIOSH has always required that the spike must contain a certain minimum area that represents the combined duration and intensity of the spike in order to constitute a failure. This evaluation is currently performed qualitatively by examining the strip chart recording. Other researchers and scientists have accepted or rejected negative excursions based on duration only. Methods: The new system uses a ±10 VDC, 16-Bit simultaneous sampling analog input device to capture the transducer outputs and to send these outputs to a custom LabVIEW® program. The LabVIEW® program performs a continuous integration of the area below zero and is designed to automatically log and display a failure if the calculated area within a time window of 0.05 seconds exceeds -0.002 inches of water-seconds at a sampling rate of 70 Hz. These failure criteria were based on calculations of the area within the negative spikes that are considered failures on the strip charts. Eight different makes and models of NIOSHapproved SCBA were tested on both systems. Three runs were performed consecutively on each respirator. Results: Results are presented of comparison testing that was performed between the LabVIEW® and chart recorder systems. The results indicate that the LabVIEW® and chart recorder systems are logging data within 0.05 inches of water for the lowest in-facepiece pressure levels measured. Conclusions: The conclusions of this study are that the new LabVIEW® system is capable of replacing the strip chart recorder with the additional benefits of complete data logging and a reduction of the subjectivity associated with determining pass / fail results. www.AIHce2015.org 39 PO117 Aerosols I Tuesday, June 2, 2015, 10:30 AM - 1:00 PM SR-117-01 Deposition of Graphene Aerosol in Human Airways W. Su, Lovelace Respiratory Research Institute, Albuquerque, NM Objective: Graphene has been widely applied in today’s nanotechnology for manufacturing carbon nanotubes. However, the graphene material might become airborne during application processes, which could then be inhaled by related workers causing possible adverse health effects. Therefore, studying the deposition of graphene aerosol in human respiratory tract is essential from the viewpoint of occupational health. This study tried to use a special experimental approach to obtain some original data for graphene aerosol human airway deposition. Methods: The test graphene material was aerosolized by an electrospray. A differential mobility analyzer (DMA) was employed to size classify the generated graphene aerosols into three designated classification diameters (50, 100, and 200 nm). The airway deposition experiments were conducted by delivering the size classified graphene aerosol into welldefined human nasal and oral-lung airway replicas (down to the 4th lung generation). The deposition fraction of the graphene aerosol in the human airway was determined by measuring the concentration of the graphene aerosol at the inlet and outlet(s) of the airway replica using a sequential mobility particle sizer (SMPS). Results: The experimental results obtained showed that very few graphene aerosols were deposited in the airway replicas. The deposition fractions in different airway sections were generally less than 4%, and the deposition efficiencies were comparable to that acquired from spherical particles. Conclusions: The result obtained implies that most of the graphene aerosols inhaled into the human airway can easily transit down to the lower lung airways where adverse health effects might be induced. The experimental method used in this study can be a useful approach for investigating nanoparticle human airway deposition, which can greatly facilitate the health risk assessment for worker exposure to various nanomaterials. SR-117-02 Development and Characterization of PM2.5 Samplers H. Hung, C. Hsu, S. Huang, J. Lai, C. Chen, National Taiwan University, Taipei, Taiwan; Y. Kuo, Chung Hwa University of Medical Technology, Tainan, Taiwan Objective: Cyclones are relatively free of operational problems such as clogging and re-entrainment. That makes them ideal for aerosol size-selective sampling. This study aimed to develop a series of sampling cyclones designed for different flow rates, but all fit to the PM2.5 sampling convention. Methods: To investigate the performance of sampling cyclones, an ultrasonic atomizing nozzle was used to generate micrometer-sized potassium sodium tartrate particles. An Am241 radioactive source was employed to neutralize the particles to the Boltzmann charge equilibrium. Aerosol size distributions and number concentrations upstream and downstream of the cyclones were measured using an aerodynamic particle sizer. Each aerosol penetration measurement was repeated five times 40 AIHce 2015 | May 30 – June 4 | #AIHce to assure data quality. The pressure drop across the cyclone was measured using an inclined manometer. The cyclone body diameter was used as the reference of other dimensions - including cyclone body height, cyclone height without cone, cone height, cone angle, cone bottom diameter, vortex finder diameter, and vortex finder length. All cyclones were variations on the design of the Very Sharp Cut Cyclone (VSCC). Results: The tested VSCC sampler had a design flow of 16.7 L/ min and fit quite well to the PM2.5 sampling convention, except a slight over-estimation for aerosol size larger than 3 mm. The cyclone efficiency increased with the increasing flow rate because of increasing centrifugal force. The cyclone efficiency surprisingly decreased with increasing cyclone length. This phenomenon was particularly apparent for the no-cone design. The cone played an important role affecting not only the cutoff size but also the shape of the separation curves. The empirical equations derived and reported in previous studies could only provide rough dimensions of the cyclones designed for different sampling flow rates. Further fine-tune was needed to better match the PM2.5 sampling convention. Conclusions: The cyclone structure is simple. Yet the alterations of configurations in the cyclone affect one another, which make it complicated to fully understand the impact of every configuration on the particle collection efficiency as a function of particle size, pressure drop, and the combined cyclone quality factor. SR-117-03 Direct-reading Instrument Correlation for Dry Aerosol Personal Decontamination Method Evaluation C. Lieb, J. Slagley, J. Engler, Indiana University of Pennsylvania, Indiana, PA Objective: The objective of the test was to compare respirable dust concentrations from two direct-reading instruments for use in a research method to evaluate dry aerosol personal decontamination. Methods: Two direct-reading instruments were used side-byside to estimate respirable dust exposure within an aerosol chamber immediately after doffing coveralls from a manikin torso for different dry aerosol decontamination protocols. A manikin torso was dosed with 75 g of sodium bicarbonate on all surfaces of its coveralls. One of three decontamination methods (none, vacuum, or blower) was applied for three randomized trials each (n=9). The high efficiency particulate arresting (HEPA) vacuum method followed a set protocol which took 1.5 minutes. For the air shower simulation, a blower was secured at 30 cm (12 in) from the manikin to deliver an air velocity of 1351 cm/sec (2660 feet per min) while the manikin was rotated on a turn table for a 30 second duration. Exposure to respirable dust was measured with a six-channel optical particle counter (OPC), and a nepholometer. The OPC results were used to calculate a respirable dust concentration, while the nepholometer directly reported respirable dust concentration. Backgroundcorrected readings ranged from 0.008–0.392 mg/m3. While both instruments use light scattering for measuring aerosols, they are different in their operation and assumptions. The instruments were compared for correlation to each other. Results: The nepholometer consistently measured 18% of the OPC response, with a linear correlation coefficient of 0.94. Conclusions: This study was one in a series to compare decontamination method effectiveness. The airborne exposure of concern is dry aerosols after applying a decontamination protocol. As such, direct-reading instruments are essential for the short period of exposure and high variability in concentrations. Two instruments were compared in the laboratory-based evaluation phase because the nepholometer is best-suited for field use, while the OPC gives more particle size information and is therefore more useful in the laboratory studies. The investigators wanted to confirm that the two different instruments would be highly correlated so that what was discovered in the laboratory could be seen in the field settings. SR-117-04 Development of a Low-Cost Integrated Sampler and Sample Pump C. L’Orange, C. Quinn, D. Miller-Lionberg, J. Volckens, Colorado State University, Fort Collins, CO Objective: Personal exposure assessments for aerosol hazards are often constrained by available resources: personnel, sampling, analytic. The sampling devices available for assessing aerosol exposure are either too costly and complex or nonrepresentative in their ability to estimate dose; these limitations have reduced their use. A critical step needed to increase the affordability and throughput of personal exposure assessment is the development of simple and economical measurement devices. Methods: A new integrated aerosol sampler and sample pump have been designed to address this need. The sampler system incorporates swappable sampler inlets directly into a small, light-weight personal sampling pump. The sampler body has been configured to handle multiple sampler inlets to meet a diverse range of study needs including the ability to directly incorporate size selective inlets. The sampler inlets were evaluated through a combination of calm air chambers, wind tunnels, and trial field studies for a range of particle sizes. Pump performance was characterized by generating a detailed pump curves using a calibrated flow bench. Results: The new sampler inlets were found to be within ±13% of the proposed low velocity inhalability criterion for all particle sizes tested and with low limits of detection (<15 mg). The new sampler inlets tested were found to have comparable or superior performance to currently available designs while having a reduced complexity and minimal maintenance requirements. The lightweight sampler (<300g) was capable of maintaining precise flow control for flow rates ranging from 0.5L/min to >15L/min with moderate backpressure. Conclusions: The process of collecting personal exposure measurements has been streamlined by incorporating two of the major physical elements into a single package. The availability of robust, simple, versatile, and economic sampling systems should reduce barrier to entry for organizations seeking to incorporate personal exposure measurements into their health and safety programs. SR-117-05 A Sampling and Measurement System for Motorcycle Exhaust PM2.5 J. Lai, S. Huang, C. Hsu, C. Cheng, National Taiwan University, Taipei, TaiwanH. Cheng, The Environmental Analysis Laboratory, Taoyuan, Taiwan Objective: The objective of this work was to develop a sampling and measurement system for PM2.5 emission from motorcycle engines. Methods: The whole system could be divided into three parts: a diluter or a Nafion dryer, a PM2.5 pre-separator, and a prototype opacity meter. DEHS was used a surrogate agent whenever appropriate. A dynamometer was used to control a four-stroke motorcycle engine to generate stable exhaust aerosols. The hygroscopic property of motorcycle exhaust aerosols was investigated to provide the essential data for further design of diluter and/or dryer. A variety of sampling cyclones, based on the Very Sharp Cut Cyclone, were built and tested to check the fit to the PM2.5 sampling convention. A scanning mobility particle sizer and an aerodynamic particle size were used to measure aerosol number concentration and size distribution. Aerosol penetration tests were conducted for size-selective sampling cyclones, diluters, and dryers. A prototype opacity meter based on multi-reflection of laser light was built, tested and optimized for the PM measurement of motorcycle exhaust. Results: The results showed that the aerosols, exhausted from a fuel-injection engine under the idle condition, had a count median diameter of 50 nm, with a GSD of 1.8. The aerosol number concentration was in the range from 104 to 105 #/cm3. The particle size was not affected as the relative humidity increased up to RH 95%. However, diluter and/or Nafion dryer were needed to remove water to prevent water vapor condensation. The diluter had the advantage of cooling the exhaust air effectively, but it led to lower aerosol concentration, a challenge to the opacity meter. The Nafion dryer could reduce the relatively humidity down to 25%. The VSCC with design flow of 16 L/min was used as PM2.5 pre-separator to work with the diluter. A smaller cyclone with a design flow of 3 L/min was developed to work with the Nafion dryer. The prototype opacity meter had a minimum detection limit of 0.5%, and could be used to monitor the aerosol concentration down to 104 #/cm3. Conclusions: The sampling train and the opacity meter developed in this work performed satisfactorily. The whole measurement system was easier to operate, if Nafion dryer was adopted, because no additional flow control was needed. However, extra attention was needed to control the temperature to avoid water vapor condensation on the opacity meter. CS-117-06 A Semi-Automated Scanning Electron Microscopy and Energy Dispersive X-ray (EDS) Method to Identify the Composition and Source(s) of Airborne and Surface Dust Complaints D. Baxter, Environmental Analysis Associates, Inc., San Diego, CA Situation/Problem: Although airborne and surface dust analysis is a powerful tool for solving air quality complaints, the absence of a systematic approach, skilled personnel, and time intensive analysis requirements, have limited the development of routine testing protocols. The time required to manually count and chemically analyze (2-3 hours) a sufficient number of particles is the main limitation. The absence of standards and industry guidelines for interpreting the data is also a factor. Although automated SEM/EDS is a standard analysis method for gunshot residue in criminal cases, a standardized approach to characterizing more generalized dust sources has remained undeveloped. Resolution: This presentation, describes an automated SEM/ EDS method for the quantification of indicator particles encountered in Indoor Air Quality investigations. The method employs commercially available EDS particle analysis software www.AIHce2015.org 41 that can be retrofitted onto older Electron Microscopes. An entire “field of view” of up to 100 particles can be simultaneously analyzed for size, and chemistry at a rate of 10-50 particles/ minute. Particle “classification” is then performed using a rule-based X-ray spectra library gathered by Environmental Analysis Associates, Inc. (EAA). The resulting data is presented in a format specifically designed to help the IH professional determine the potential sources and relative concentration of contaminant particles. The resulting microscopy data is reported by particle “classification” enabling the source of the particles to be determined. Results: This presentation shows practical examples of automated dust analysis using an SEM/EDS system combined with a computer rule-based particle classification system. The “classification” categories are tailored to the likely source of the dust. The actual number of reported categories is based on the complexity of each sample. The applications discussed include the estimated size distribution and mass of quartz in coal dust samples, the quantification of fire residue, and locating the indoor source of corrosion particles. Lessons Learned: When a semi-automated SEM/EDS system and a rule based particle characterization program are employed, large numbers of particles can be analyzed over a very short time frame. Significantly, implementation of this method brings the SEM analysis from a research mode to a commercial analytical tool for Industrial Hygiene investigations. PO118 IH General Practice I Tuesday, June 2, 2015, 1:30 PM - 5:30 PM SR-118-01 A Simulation Algorithm for Converting Historical Particle Count Data to Respirable Dust Mass R. Rando, Tulane University SPH&TM, New Orleans, LA Objective: Historically, inhalation exposures in dusty industries were measured with impinger collection/microscopic analysis to quantitate particle count concentration. In order to use such historical data for retrospective exposure assessment of industrial sand workers, a simulation algorithm to convert particle count data into modern measures of respirable dust mass was developed. Methods: The simulation entails using an archival dust size distribution along with simulation software to randomly generate 100,000 virtual dust particles of varying diameters taken from a log-normal distribution having the same CMD and GSD as the archival sample. For each virtual particle, the equivalent respirable mass and particle count, based on its diameter, density, and its measurement efficiencies, were calculated. The mass and counts of the virtual particles were then totaled and ratioed to derive the conversion factor. Respirable dust measurement efficiency was calculated from a cumulative lognormal function with median aerodynamic diameter of 3.5 μm and GSD of 1.5 and truncated for particles > 10 µm. Impinger/microscopy measurement efficiency was set to zero for particles < 0.75 μm or > 5 μm based on microscopic limit of resolution and historical counting rules, whereas for particles between 0.75 and 5 µm, measurement efficiency was calculated from published impinger collection efficiencies for silica. The algorithm was evaluated in comparison to published experimental data from side-by-side sampling/analysis for 42 AIHce 2015 | May 30 – June 4 | #AIHce respirable dust, particle counts, and size distributions for 5 types of mineral dust, and then applied to archival particle size data for industrial sand processing. Results: The mean ratio of conversion factors determined from the algorithm and from direct sampling for the various mineral dusts was 1.09 (SD = 0.40) and there was no statistical difference (paired t-test; p = 0.79). For 14 archival samples from industrial sand plants, conversion factors ranged from 97–263 μg/m3 per mppcf and there was no statistical difference across process areas (drying, screening, vibrating, binning, bulk loading, bagging), ANOVA: p = 0.31. The overall mean conversion factor was 157 (SD = 42). Conclusions: The simulation algorithm performed favorably in comparison to directly determined conversion factors. When applied to archival industrial sand data, the results were similar to that previously reported for siliceous dusts in granite sheds (~100 μg/m3 per mppcf). CS-118-02 Comparison of Quantitative Exposure Assessment Results for Crystalline Silica (Respirable Fraction) with Current and Proposed Occupational Safety and Health Administration (OSHA) Standards G. Desai, International Safety Systems, Inc., Houston, TX Situation/Problem: OSHA’s current permissible exposure limits (PELs) for crystalline silica (respirable fraction) were adopted in 1971. Studies show that they do not adequately protect worker health. In the proposed OSHA limit, workers’ exposures would be limited to a new PEL of 50 micrograms of crystalline silica (respirable fraction) per cubic meter of air (μg/m3), averaged over an 8-hour day. Exposure to airborne silica dust was monitored in operations involving casting cleaning, shakeout and molding in a foundry. Resolution: Full shift (eight-hour/ ten-hour) Time Weighted Average (TWA) personal breathing zone employee exposure monitoring for respirable crystalline silica was carried out using modified National Institute of Occupation Safety and Health (NIOSH) 7500/ OSHA ID-42 method. The results were compared with the current and proposed OSHA standards. Results: Two of the four TWA results to Crystalline silica (respirable fraction) during casting cleaning operations exceeded the current calculated OSHA PEL. All four TWA results exceeded the proposed OSHA limit of 0.050 mg/m3. The three TWA results to crystalline silica (respirable fraction) during the shakeout operation were less than the current calculated OSHA PEL. Two of three TWA results for the shakeout operation exceeded the proposed OSHA limit of 0.050 mg/m3. One of the five TWA results to crystalline silica (respirable fraction) during molding operations exceeded the current calculated OSHA PEL. Three of the five TWA results for crystalline silica (respirable fraction) exceeded 50% of the proposed OSHA limit. Lessons Learned: Most companies follow ACGIH TLV for comparing the crystalline silica (respirable fraction) results. These results support OSHA’s estimates that the proposed rule will save lives and prevent new cases of silicosis once the full effects of the rule are realized. SR-118-03 Potential Exposure to Naturally Occurring Diacetyl, 2,3-Pentanedione and Respirable Dust from Roasting and Grinding Coffee Beans in an Industrial Setting S. Gaffney,A. Abelmann, J. Pierce, M. Glynn, L. McCarthy, J. Lotter, M. Liong, J. Henshaw, B. Finley, Cardno ChemRisk, San Francisco, CA Objective: Concerns have been raised about potential health effects associated with occupational exposure to diacetyl (DA), and more recently, its substitute, 2,3-pentanedione (2,3-P) in food and flavorings manufacturing workers. Both DA and 2,3-P are also natural components of various foods and beverages, including roasted coffee. We sought to characterize exposures to naturally occurring DA, 2,3-P and respirable dust (RD) at a facility that roasts and grinds coffee beans with no added flavoring agents. Methods: A total of 59 stationary breathing zone samples were collected over the course of 3 roasting and grinding batches (lightly roasted soft beans, lightly roasted hard beans and dark roasted hard beans) in a facility with one roaster and grinder at varying distances from the roaster and grinder, respectively. Results: Grinding and roasting processes lasted 8–11 and 3741 min, respectively. DA, 2,3-P, and RD concentrations ranged from undetectable (ND) to 3.9 ppb, ND-18 ppb, and ND- 0.31 mg/m3 during roasting and 18–390 ppb, 8.9–210 ppb, and ND1.7 mg/m3 during grinding operations, respectively. For any given bean/roast combination and sample location, DA and 2,3-P concentrations during grinding were higher than those measured during roasting and decreased with increased distance from the source. We found that DA and 2,3-P concentrations were significantly higher at the location nearest the emission source during grinding of the soft beans than during grinding of hard beans regardless of roast type. Overall, concentrations of respirable dust were well below occupational exposure limits (OELs), but all mean DA and 2,3-P concentrations measured closest to the grinder during grinding exceeded each of the current and proposed short-term OELs. Conclusions: These results indicate that coffee-processing workers are potentially exposed to naturally occurring DA and 2,3-P in excess of the current and proposed OELs for these compounds. Based upon our review of the literature, coffee workers are not known to experience the chronic respiratory health effects that have been associated with exposures to diketones. Therefore, our findings raise questions about these suggested associations, as well as the appropriateness of the current and proposed corresponding OELs. Further research into these topics is, therefore, warranted. SR-118-04 Systematic Review and Evaluation of Health Risks Associated with Sepiolite Exposure M. Le, A. Monnot, M. Grespin, R. Ward, Cardno ChemRisk, San Francisco, CA Objective: Sepiolite is a phyllosilicate and a member of the palygorskite-sepiolite group of clay minerals. Due to its physical and chemical properties it has been used in absorbents and environmental deodorants, asphalt coatings, agricultural applications, cosmetics, cigarette filters, and in drilling fluids. Based on its refractive index, fibrous sepiolite can be misidentified as chrysotile asbestos using some standard analytical techniques. Unlike chrysotile asbestos, the human health risk associated with exposure to fibrous sepiolite may not be well understood. Given sepiolite’s worldwide commercial and industrial use, this systematic literature review sought to evaluate the potential health risks associated with sepiolite exposure. Methods: A systematic review, following PRISMA guidelines, of literature identified from PubMed, Embase, and Scopus was conducted with “sepiolite” and each of the following search terms: “health”, “cancer”, “exposure”, “health hazard”, and “toxicity”. Industry white papers, MSDSs, and government reports were also considered. Specific eligibility criteria were applied to all relevant documents identified. Results: In total 471 documents were identified, with 18 included in this analysis. Human, animal, and in vitro studies assessing the exposure, toxicity, or health risk of sepiolite were identified. No specific health outcomes were identified from these studies; however, the results suggest that sepiolite’s potential relative toxicity is dependent upon grade and fiber size. Conclusions: There is no indication that sepiolite is overtly hazardous and no conclusions regarding specific health endpoints can be taken from available studies as a whole. However, the toxicological literature suggests that its potency is dependent upon fiber grade and fiber size. Given the increasing use of sepiolite worldwide, as well as the potential for misidentification of sepiolite as other fibrous minerals, it is important that future studies are conducted to assess the exposures generated from occupational work with this mineral, as well as associated human health risks. CS-118-05 Industrial Hygiene Exposure Monitoring Programs and Mine Sites: Gap Analysis L. Clements, P. Bergholz, C. Doyle, AMEC, Burnaby, BC, Canada Situation/Problem: Workers at mines sites are potentially exposed to a wide variety of health hazards. Exposures levels often exceed exposure standards requiring the implementation of exposure mitigation measures. A comprehensive industrial hygiene exposure monitoring program is essential to ensuring that the hazards to which workers are exposed are properly identified and assessed both qualitatively and quantitatively to determine where exposure issues exist, and determine appropriate short and long term mitigation measures. A comprehensive monitoring program is also necessary to meet occupational health and safety (OHS) regulatory requirements. Occupational exposure monitoring programs at mine sites vary in terms of their comprehensiveness and opportunities for improvement exist to meet both regulatory requirements as well as best practice. Resolution: This presentation will review the typical chemical and physical hazards present at above ground and underground metal mines, highlight some of the exposure levels to which mine workers are exposed based on the presenter’s experience with the industry as a consultant and a review of recent literature on the subject, and overview the current state of some industrial hygiene programs at metal mine sites. Results: The objective of this presentation is to identify some of the gaps that have been identified in some mine site industrial hygiene exposure monitoring programs and to discuss where opportunities for improvement exist. Lessons Learned: One cannot expect operations staff / environmental / safety personnel who don’t have a strong www.AIHce2015.org 43 background in IH to develop and implement an OHS Program without support. OHS Programs require careful thought, senior management commitment, and ongoing support to be successful. All stakeholders in the process have to be educated about industrial hygiene to be able to understand the objectives / goals of the program, and what is involved and necessary to make the program a success. CS-118-06 Enhanced Confined Space Monitoring W. Jones, Total Safety U.S., Inc., Chino Hills, CA Situation/Problem: Addressed is the potential complexity of monitoring multiple confined space environments in refinery turnarounds. Precautionary measures must be well designed and understood by work crews. Real-time observations and data interpretation of multiple operations can be hard to keep up with for supervision and on site observers. Where an operation simultaneously has multiple confined space entries, coordination and oversight requirements are complex. Resolution: A centralized monitoring location was developed, utilizing an integrated system that includes simultaneous data inputs from wireless closed circuit television cameras, badge/identification readers, wireless fixed gas monitoring instruments, audible and visual alarms and push-to-talk communications. The central location is staffed by technicians, trained in industrial hygiene gas detection, who can interpret monitor readings in multiple locations at once, improving risk assessment and communications with observers, entrants, supervisors and operations management during complicated and high hazard operations. These trained technicians, monitoring and interpreting simultaneously potentially hazardous situations enhance what on-site observers or “hole watches” see by providing immediate feedback from the centralized monitoring location. Results: Use of this integrated approach on multiple refinery turnarounds has provided better real-time data interpretation and immediate observations of confined space entrants working in potentially high hazard environments. The central location for observations during multiple confined space entries has resulted in better coordination and better data interpretation. In other high hazard operations, this integrated system has provided more immediate feedback to plant operators in the process of clearing and breaking lines containing a chemical fluid. As an example, in a recent refinery turnaround where work crews were getting a Permit to Work in a Coker unit, continuous monitors located in the area allowed the plant operator to issue work permits in one fourth the time normally required. Lessons Learned: From our experience, an integrated approach to multiple confined space entries simplifies communications and data flow to participants, enhances observations and improves risk control during this high hazard and historically deadly work. CS-118-07 Mining in Northern Ontario, Canada: Challenges Facing Safety and Health R. Korczynski, AMEC, Thunder Bay, ON, Canada WITHDRAWN SR-118-08 Assessing the Health Effects of Rotating Shift Work among Refinery Workers K. McNamara, UCLA, Santa Monica, CA; W. Robbins, UCLA, Santa Monica, CA Objective: Refinery workers in operator and maintenance positions typically work extended, rotating shifts. This study aimed to characterize work schedules and prevalence of chronic diseases in the study population, and explore associations between work hours, fatigue, and health & quality of life outcomes. Methods: We assessed the health impacts of extended shifts, shift rotation, and overtime among refinery workers using a self-reported health questionnaire administered to members of the United Steelworkers (N=17,333). Reported work schedules, annual estimates of overtime worked, typical sleep schedules and an evaluation of sleep quality were used to estimate fatigue exposure. Self-reported diagnoses of heart disease, hypertension, diabetes, and gastro-intestinal illness were used to calculate disease prevalence within the workforce. Calculated disease prevalence rates were compared to day shift workers from the surveyed population, rotating shift workers in other industries, and the general public. Job stress and quality of life indicators were measured, and a depression assessment was performed. Results: A shift work exposure index will be calculated based on the exposure to alternate and rotating shift assignments (self-reported work schedules, annual overtime estimates, and work histories). Then an overall fatigue index will be calculated based on associations between hours worked, hours slept and sleep quality scores. These two exposure indices will be tested against individual health outcomes. Disease prevalence will be calculated based on self-reported assessment of current health symptoms and biometrics, and known medical diagnoses. Responses will be coded according to NHANES codebooks for CVD, diabetes, and blood pressure. Likert scales will be used to assess severity of job stress, depression, and quality of life factors, then scored to yield a positive or negative overall result. Conclusions: The mechanisms of chronic diseases associated with fatigue are poorly understood. The direct effect of shift work on blood pressure, BMI, CVD and metabolic disease is debated. Recent research indicates that metabolic disease could be the primary causal mechanism for hypertension, CVD, and diabetes among shift workers. Our study has accessed a large workforce with a significant exposure to work related fatigue. Our detailed assessment of their past and current exposure, recovery periods, and health and mental status will generate valuable insights. SR-118-09 New Results from the Comprehensive Lead Education and Reduction by Window Replacement (CLEAR-WIN) Program in Illinois D. Jacobs, M. Tobin, P. Pratap, S. Cali, University of Illinois at Chicago, Chicago, ILD. Clarkson, Peoria Health Department, Peoria, IL; S. Dixon, National Center for Healthy Housing, Washington, D.C.; J. Breysse, National Center for Healthy Housing, Washington, D.C. Objective: Childhood lead poisoning remains a widespread problem, with over half a million children having blood lead levels above the CDC reference value of 5 µg/dL. Windows are 44 AIHce 2015 | May 30 – June 4 | #AIHce known to have the highest levels of both lead paint and lead dust compared to other building components, but large-scale window replacement programs have not been forthcoming and financed. This study was conducted to measure lead and other health outcomes associated with large scale replacement of old windows contaminated with lead. Methods: Dust lead on floors, interior window sills and exterior window troughs, as well as resident health interviews was conducted in 50 housing units in Chicago (urban) and another 50 units in Peoria (rural). Dust lead was collected using the standard HUD wipe method and analyzed in an accredited laboratory. Health interviews were conducted using questions drawn from the CDC National Health Interview Survey. SR-118-11 Distribution and Influence Factors for Knee and Hip Injuries among Retired Workers of Automotive Manufacturing W. Chen, School of Public Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China Objective: Few researches reported the prevalence of injuries for knee and hip joint among workers in automotive manufacturing. The objective of this study was to describe distribution of knee and hip injuries among retired workers and to evaluate the possible factors which related to this damage. Results: Preliminary results show geometric mean (GM) interior window sill dust lead loadings declined from 287 µg/ft2 to 32 µg/ ft2 (89% reduction); exterior window troughs declined from 5,022 µg/ft2 to 120 µg/ft2 (98% reduction); and interior floors declined from 11.4 µg/ft2 to 9.7 µg/ft2 (15% reduction). Health interviews suggest there are also important health improvements associated with asthma and mental health. The data also show significant improvements in energy use and property value. Methods: The total of 9418 workers were involved in this study. Trained investigators collected information for all participants through one questionnaire. The data included personal information, work history and net years in work, self-reported injuries of the knee and hip. All participants took physical health examination including joint examination after the survey. Univariate and multivariate logistic analysis were conducted using SAS9.2. Conclusions: The findings suggest that replacement of lead painted windows can substantially reduce children’s exposure and illustrate the importance of establishing large-scale window replacement with state, federal and local financing mechanisms. Results: The average age of 9418 workers (4350 males, 46.2%) was 61.6±7.4 years old. The prevalence of the self-reported knee damage, clinical positive knee injuries and knee osteoarthritis were 40.9%, 3.7% and 7.5%. The prevalence of the self-reported hip damage, clinical positive hip injuries and hip osteoarthritis were 11.2%, 9.5% and 0.8%. High body mass index (BMI), job title and shift work were risk factors for knee injuries. BMI, job title and age were thought to be related with hip injuries. Loss years of service for workers with knee injuries and hip injuries were 8.8±5.5 years and 8.2 ±5.6 years, separately. Both were statistically significantly longer than those of workers without knee or hip injuries (6.5±6.0 years). SR-118-10 Drying Water-Damaged Materials Based on Water Activity E. Light, R. Gay, Building Dynamics, LLC, Ashton, MD; B. Carter, Decagon, Pullman, WA Objective: Water damage restoration currently tracks drying by moisture content measured with moisture meters. Water activity is more specifically tied to potential for mold growth, but field measurement of construction materials for this parameter has not been feasible. This study monitored the drying of wet construction materials to compare moisture content with water activity. Methods: Prototype instrumentation was used to track drying of wood by water activity side-by-side with a moisture meter Results: It took approximately three times longer to dry wood to a water activity level considered sufficient to prevent fungal growth when compared to drying time needed to meet acceptable moisture content. Water activity remained at a level potentially supporting fungal growth after drying criteria in current use were met. Similar results have recently been published by another investigator using the same method to track the drying of gypsum board. . Conclusions: High prevalence of knee or hip injuries were observed among retired workers of automotive manufacturing. BMI number, special job title and age were possible risk factors for knee and hip injuries. SR-118-12 Absent vs. Present but Not Quantified: Can a JobExposure Matrix Be Used to Predict Samples Where Lead Exposure is Likely Absent in U.S. OSHA Inspection Measurements? J. Hwang, NIH, Bethesda, MD; J. Lavoué, University of Montreal, QC, Canada; S. Locke, D. Russ, C. Johnson, M. Friesen, NIH, Bethesda, MD WITHDRAWN Conclusions: Preliminary data suggest a potential for mold growth after re-installation of construction materials on surfaces meeting drying objectives based on moisture content. Research is needed to determine if reconstruction of sites with elevated water activity actually promotes mold growth. www.AIHce2015.org 45 PO119 Exposure Assessment Strategies: Modeling Tuesday, June 2, 2015, 2:00 PM - 4:00 PM SR-119-01 A Method for Constructing Informative Priors for Bayesian Modeling of Occupational Hygiene Data H. Quick, CDC, Atlanta, GA; T. Huynh, University of Minnesota, Minneapolis, MN; G. Ramachandran, University of Minnesota, Minneapolis, MN Objective: In many occupational hygiene settings, the demand for more accurate, more precise results is at odds with limited resources. To combat this, practitioners have begun using Bayesian methods to incorporate prior information into their statistical models, hoping to gain more refined inference from their data. This is not without risk. Incorporating prior information that disagrees with the information contained in data can lead to spurious conclusions, particularly if the prior is too informative. The objective of this paper is to propose a method for constructing informative prior distributions for normal and lognormal data that are intuitive to specify and robust to bias. Methods: We conducted computer simulation studies to compare 5 different priors and used root mean square error as our evaluation metric. Results: In complete uncensored data case, our prior performed similarly as the non-informative prior. For censored data cases, our prior showed a marked improvement over the noninformative priors. Conclusions: Our method for specifying informative priors is viable tool for analyzing industrial hygiene data. SR-119-02 Predicting Construction Related Silica Exposures Using Input from Chamber and Field Studies S. Arnold, G. Ramachandran, University of Minnesota, Minneapolis, MN Objective: Predicting silica exposures is an important first step in effectively managing and preventing overexposure. Mathematical models are useful for predicting exposures in construction environments but their use has been limited because of the inherent challenges of quantitatively defining model inputs. This study was conducted using chamber and field studies to better characterize these inputs. Methods: Dry wall sanding was simulated by a professional drywall finisher in an exposure (11.9 m3) chamber under highly controlled conditions. Respirable dust and crystalline silica (quartz) generation rates were quantified by back-calculating the generation rate from the airborne concentration. Other model parameters, such as the ventilation rate, room dimensions and work practice information were collected in the field, providing high quality model inputs for three models; the well-mixed room, near field far field and turbulent eddy diffusion models. Personal exposure measurements were collected using real time and time weighted (integrated) sampling. Measured and modeled exposure estimates were compared. Results: A generation rate was derived under highly controlled conditions for pole and hand sanding, respectively. The use of the chamber to better characterize model inputs that are difficult to evaluate in the field was very useful and facilitated 46 AIHce 2015 | May 30 – June 4 | #AIHce the use of several models to predict exposures to silica. Conclusions: Using chamber to quantify those parameters inherently challenging to characterize in the field in combination with field data enhances model parameter estimates and ultimately, model performance. SR-119-03 Characterization of Chrysotile Asbestos Fiber Removal Rates from Air J. Sahmel, H. Avens, P. Scott, A. Burns, C. Barlow, K. Unice, A. Madl, J. Henshaw, D. Paustenbach, Cardno ChemRisk, Boulder, CO Objective: Some theoretical estimates of fiber settling rates have raised concern that asbestos fibers may continue to pose an inhalation hazard long after a primary fiber release event has ended. However, only a small number of empirical data sets exist regarding rates of fiber removal from air. A study was conducted to gain further empirical data on this topic. Methods: Air samples were collected while clothing contaminated with chrysotile asbestos was handled for 15 min. To evaluate the decrease in chrysotile concentrations after clothes handling ended, air sampling was performed during the first 5 min, first 15 min, and second 15 min after the activity ceased. This process was repeated for six total events. The study chamber was about 58 cubic meters with 3.5 air changes per hour. Samples were analyzed by NIOSH Method 7402. The PCME asbestos concentrations during the fiber settling/removal period were fit to an exponential decay curve from which fiber half-life and time to removal of 99% of fibers were estimated. In addition, the results were compared to theoretical estimates of the fiber removal rate that would be expected from ventilation alone and from gravitational fiber settling alone. Results: PCME chrysotile concentrations during the 15-30 min after clothes handling ended decreased 80%-92% compared to concentrations during active clothes handling. Across all six events, the fiber half-life was estimated to be 4.8 min (95% CI: 3.4-8.6) and the time to 99% fiber removal was estimated to be 32.2 min (95% CI: 22.4-56.9). Theoretical calculations based on ventilation alone yielded an estimated half-life of 11.9 min and 99% fiber removal by 78.9 min. Theoretical calculations based only on gravitational settling yielded half-lives of 0.6 to 24 hr. depending on the PCME fiber dimensions evaluated, while estimated times to 99% removal ranged from 4 to 160 hr. Conclusions: Nearly all fibers were removed from the air within approximately 30 min. This study is consistent with other studies in finding that theoretical estimates of fiber removal rates based solely on gravitational settling over-estimate the time that fibers remain airborne. The measured fiber removal rates were also greater than estimates based on ventilation and gravitational effects combined, suggesting that other mechanisms such as adhesion to surfaces, diffusion, agglomeration of particles to one another, and electrification also play an important role in fiber removal processes. SR-119-04 Turbulent Eddy Diffusion Models in Exposure Assessment: Determination of the Eddy Diffusion Coefficient Y. Shao, G. Ramachandran, S. Arnold, S. Arce, University of Minnesota, Minneapolis, MN Objective: The turbulent eddy diffusion models could provide details of a continuous concentration gradient with distance from the source. But the use of these models in exposure assessment is limited due to the lack of knowledge on the isotropic eddy diffusion coefficient, D. Recent studies have hypothesized that this parameter is related to the air changes per hour (ACH) and the room dimensions. The goal of this work is to determine this relationship. Methods: An exposure chamber (11.9 m3, L/W/H: 2.8×2.15×2m) was constructed with the ability to vary flow rate from 0.5 to 5 ACHs. A continuous Acetone source was located in the chamber center and was controlled using a Harvard syringe with a generation rate from 0.05 to 0.5 ml/min. Two Dräger X-AM 7000 vapor monitors were used with a multiplexer to measure the chemical concentrations at six symmetric locations on both sides of the source in the chamber. A spherical turbulent eddy diffusion model accounting for wall effects and/or advection was used to predict concentrations at the same locations. The difference between the measured and predicted concentrations was minimized by a MATLAB least-squares function to best estimate D. Experiments were conducted at five different values of ACH and three generation rates. The effect of data analysis averaging times on the value of D was also studied. Results: The model can predict average exposures in close proximity to emitting sources, as long as the turbulent diffusion coefficient (D) can be estimated. The advection and wall effects were not negligible in our chamber where some monitoring locations were 0.4 m away from the walls or/and the intake filters. The monitored value was about 2 times higher than the prediction without wall-reflections correction. The turbulent diffusion model was sensitive to the value of D, where a 0.0001 m2/s scale change of D could result in a 1~5 ppm scale change of predicted concentration. At 0.7~0.8 ACH, the estimated D was 0.0005 m2/s. There is a significant positive linear correlation between ACH and the turbulent diffusion coefficient. Conclusions: The consideration of wall effects and/or advection in the turbulent diffusion model is very necessary to a relatively small test chamber. The ability to estimate the turbulent diffusion coefficient; air change rate and room dimensions can significantly increase the ease of use of this model for occupational exposure assessment. SR-119-05 Exposure Models: How Accurate Are They? Evaluating Exposure Model Performance under Highly Controlled Conditions S. Arnold, G. Ramachandran, University of Minnesota, Minneapolis, MN Objective: Exposure modeling, which has been shown to improve decision making across a broad range of domains provides a systematic and transparent approach for making exposure judgments. But they may be undervalued as tools for making accurate exposure judgments as occupational hygienists (OHs) lack training opportunities that would provide immediate feedback on their judgment accuracy, and therefore they maybe underutilizing models. Guidance directing OHs on which model would produce the most accurate exposure estimate under a defined set of conditions is needed. The models need to be systematically evaluated in both chamber and field environments. In this work, studies were conducted to systematically evaluate a range of models and provide guidance on their appropriate use under highly controlled (chamber) conditions. Methods: A full size exposure chamber (11.9 m3) was constructed, providing a highly controlled environment in which simulations could be conducted and model parameters could be measured with a high degree of certainty. 162 studies (3 agents x 3 generation rates x 3 ventilation rates x 3 repetitions x 2 chamber configurations) were conducted for three chemical agents (acetone, toluene, methylene chloride) under varying air exchange rates and generation rates in which airborne concentrations were measured in real-time, providing time varying exposure data. Chamber conditions were varied to simulate well mixed room and 2-zone environments. A range of exposure models (Well Mixed Room, 2 Zone, and Turbulent Eddy Diffusion) were evaluated. Measured and modeled exposures were compared and performance assessed according to ASTM 5157. Results: A rich database of exposure model parameter values was developed, which will be useful for applying these models. Concordance between modeled and measured exposures was generally very good, but varied with chamber conditions. For example, in the acetone studies when the ventilation was set to low ~ 0.5 ACH, the modeled and measured time varying concentration were essentially the same, but as steady state conditions were approached, the modelled concentration was 10–20% less than the measured concentration. At higher ACH (~2–5), the modeled time varying and steady state concentrations was within 5% of the measured time varying and steady state concentrations. Conclusions: These studies will be pivotal in developing model selection guidance on selecting and applying these models. SR-119-06 Exposure Models: How Accurate Are They? Evaluating Exposure Model Performance under Real World Conditions S. Arnold, G. Ramachandran, University of Minnesota, Minneapolis, MN Objective: Exposure modeling is an approach found to be useful for guiding accurate exposure judgments across many professional domains, but may be undervalued and underutilized in OH. This may be because OHs lack training opportunities that would provide immediate feedback on their judgment accuracy and because little guidance exists for directing OHs on which model would produce the most accurate exposure estimate under a defined set of conditions. To meet this need the models need to be systematically evaluated in both chamber and field environments. We will present the results from studies conducted in several work places to systematically evaluate a range of models and provide guidance on their appropriate use under real world conditions. Methods: Five studies were conducted at four different work places, providing real world environments in which measurements were collected while specific tasks were performed (weighing powder, finishing drywall, cleaning industrial equipment, finger nail manicuring and floor cleaning). Model parameters were directly measured whenever possible, or estimated when they could not be measured, providing parameter values with a greater degree of uncertainty compared to parameter values generated under highly controlled conditions. Real time and integrated personal samples were collected, along with time activity budgets. A range of exposure models presented in IH Mod (Well Mixed Room, Two Zone, and Turbulent Eddy Diffusion) were evaluated. www.AIHce2015.org 47 Results: A rich database of real world exposure model parameter values was developed, which will be useful for applying these models. The highly variable conditions typical of construction environments was reflected in more variable model parameter values, compared to the highly controlled conditions found in the manufacturing setting. Differences in working environments and tasks were important determinants in model performance. For example, while the 2 Zone model showed concordance with measured exposures in the highly controlled manufacturing setting where equipment was cleaned, there was less concordance between modeled and measured exposures in the construction setting during drywall finishing. Conclusions: A rich database of real world exposure parameter values was developed that will be useful in applying the Well Mixed Room, Two Zone, Turbulent Eddy Diffusion models. These studies will be pivotal in developing model selection guidance. PO120 Aerosols II Wednesday, June 3, 2015, 10:00 AM - 12:00 PM SR-120-01 Characterization of Aerosol Emission from the Burst of a Single Bubble W. Ke, J. Lai, S. Huang, C. Chen, National Taiwan University, Taipei, Taiwan;Y. Kuo, Chung Hwa University of Medical Technology, Tainan, Taiwan Objective: Aerosol emission due to bubble bursting has been studied extensively in the past decades. These studies were largely based on multiple bubbles. The main objective of this work was to experimentally characterize the aerosol emission from the burst of only one bubble. Methods: The single bubble could be generated by supplying a fixed volume of air through a small diameter tube, from above the liquid, or releasing the air volume from the bottom of the liquid. The generated droplets were then carried by a dried and aerosol-free air flow upward to the test chamber. The distilled, deionized water was used as the solvent, and sodium chloride as the solute. The surface tension was adjusted, ranging from 33 to 50 dyne/cm, by adding different amount of surfactant, i.e. sodium dodecyl sulfate. The size of bubble was controlled by using a syringe pump. The generated droplets after dried were monitored by two aerosol instruments. An Aerodynamic Particle Sizer (APS) was used to measure the aerosol number concentration and size distribution from 0.7 to 20 μm. A Condensation Particle Counter (CPC) was used to monitor the total number concentration, which supplemented the size information for aerosols smaller than 0.7 μm. For each combination of bubble size and surface tension, 100 bubbles were generated and measured. Results: The results showed that the generated droplet number, from the burst of a 3-cm bubble, increased from 24,000 to 37,000 #/bubble, as the air flow increased from 8 to 30 L/min. For air flow higher than 30 L/min, this increase in number count was marginal. The droplet size and number count generated from a burst bubble increased with increasing bubble size. For example, the CPC count increased from 5600 to 34000 #/bubble, as the bubble increased from 2 to 4 cm. The count median diameter based on APS measurements also increased from 2.12 to 2.68 μm. The surface tension appeared to be crucial in droplet generation. As the surface tension decreased, the generated 48 AIHce 2015 | May 30 – June 4 | #AIHce droplets became smaller, but more in number count. For most of the measurements, the ratio of CPC count to APS count was about 1.5, indicating that about 33% of the aerosol particles were smaller than 0.7 μm. Conclusions: Bubble size and surface tension were the major factors affecting the size and number of generated droplets. For the bubble size studied in this work, only film droplets were observed. SR-120-02 Particulate Matter Exposure in a Police Station Located Near a Highway C. Hsu, P. Tsai, M. Lin, National Cheng Kung University, Tainan, Taiwan; Y. Chen, National Health Research Institutes, Miaoli County, Taiwan; C. Wang, National Sun YatSen University, Kaohsiung, Taiwan Objective: Exposure to particulate matter (PM) in the workplace can result in adverse health effects such as cardiovascular and respiratory diseases. Workers working near highways are exposed to high concentration of nanoparticles especially during traffic rush hours. Vehicle engine exhaust during driving, acceleration and deceleration is a major source of nanoparticles. In this study, we aim to characterize the PM exposure of a highway police station that is located right next to the Sinying highway toll station located in Tainan, Taiwan. Methods: We measured PM at two locations, the first location was inside the police station. The second location was located approximately 50 meters upwind of the highway, serving as a background station to help us understand the contribution of PM from the highway. The instruments used for the two locations includes the Scanning Mobility Particle Sizers (SMPS, model 3936, TSI, Inc.), Dusttrak (model 8520, TSI, Inc.), CO/CO2 analyzer (model 7572, TSI, Inc.), and Polycyclic Aromatic Hydrocarbons’ monitor (PAH, EcoChem PAS). We also have a weather station (Watch Dog 2550) that monitors temperature, relative wind speed, and wind direction at the upwind location. During the one week measurement period, the wind direction was mostly from the highway. Results: Preliminary results indicate that highway is a major source of nanoparticle emission. During periods of downwind conditions, the nanoparticle number concentration inside the police station can be 5 times higher than the background concentration. Moreover, nanoparticle number concentration correlates with highway traffic density. Conclusions: The study results can enhance our understanding of PM exposure in workplaces near busy roadway. Improving the ventilation system and/or using face masks can help reduce the risk of workers working in vicinity of a busy roadway. SR-120-03 Assessing Respirator Use and Particulate Matter Exposure in Aluminum Manufacturing Facilities S. Liu, UC Berkeley, Berkeley, CA Objective: Industrial hygiene samples for particulate matter (PM) in aluminum production facilities 1977–2011 were analyze to evaluate respirator use and its impact on PM exposure. Methods: Descriptive analyses were performed to evaluate where and how often respirators were used, as well as how many jobs from which PM exposure would be affected by respirator adjustment. According to the respirator type recorded in the data base, assigned protection factor (APF) was identified. Respirator APFs were then applied to the PM measurements when respirator use was recorded. PM exposures before and after respirator adjustment were compared to evaluate the potential impact of respirator use on PM exposure. (R2=0.72 [p<0.002], r=0.85 [p<0.002]), respectively. Relating the gravimetric analysis of total aerosol collected on the filters also shows a strong relationship (R2=0.98, [p<0.001], r=0.99 [p< 0.001] when compared to the Grimm data and (R2=0.77, [p<0.001], r=0.88 [p< 0.001] when compared to the DustTrak data. Results: There were 59,683 PM measurements in the company IH database. Respirator use was recorded for 36% of measurements. Use of mechanical filter and chemical cartridge respirators were documented, with occasionally use of supplied air respirators and self-contained breathing apparatus (SCBA). The respirator style included full-face, half-face, quart-face and Helmet/Hood. PM concentration ranged from less than detectable to 11,833 mg/m3, with arithmetic mean of 14.8 mg/ m3, median of 0.84 mg/m3 and standard deviation of 720 mg/m3. Among 12 facilities that were intensively examined, respirators were used at a significantly higher rate in smelting facilities (37%) than in fabrication units (16%) or refinery facilities (24%) (p = 0.01). Job titles with high respirator use rates (>95%) include bag house repair, preheat furnace operator, process potline operator, carpenter/painter and pot hood repair, etc. Application of APFs to the PM measurements in these 12 plants resulted in a reduction of overall mean from 12.4 mg/m3 to 5.83 mg/m3 in these plants. Conclusions: Results of this study demonstrate that a strong association exists between Grimm, DustTrak and Button Sampler for subtilisins, when sampling was carried out in an enclosure with particles of known size and concentration. Additionally, the Grimm and DustTrak data show a strong association with the Button Samplers for inhalable sized particles based on gravimetric analysis. Conclusions: Respirators were widely used in the aluminum manufacturing facilities. Prevalence of use and types of respirator used varied by facility type, process and task. Respirator use adjustment substantially reduced estimated PM exposure, which needs to be considered in occupational health studies of PM exposure in these facilities. SR-120-04 Estimation of Airborne Subtilisins Concentrations Using Real-Time Portable Aerosol Monitoring Instruments L. Pahler, R. Larson, D. Sleeth, University of Utah, Salt Lake City, UT Objective: Currently, there is no real-time method for measuring occupational exposure to subtilisins. This study investigated whether a Grimm 1.109 Aerosol Spectrometer and a DustTrak DRX 8533 could be used to estimate airborne concentrations of subtilisins in real-time as compared to an SKC Personal Button sampler. Methods: A study was conducted relating the concentration of subtilisins in detergent as measured by SKC Button Inhalable Aerosol Samplers when compared to Grimm and DustTrak Aerosol Spectrometer particulate concentrations. Button Sampler Subtilisin concentrations were determined using a Thermo Scientific Konelab Arena 20 photometric analyzer. Linear regression and Pearson’s correlation comparing the concentration of subtilisins collected from the Button Sampler filter to total particulate concentrations measured by the Grimm and DustTrak were performed for sampling events conducted in an enclosure. A 2% subtilisin and detergent mixture of <25 µm particle diameter was routinely introduced into an enclosure for sampling. Additionally, linear regression and Pearson’s correlation comparing the concentration of total aerosol, as determined by gravimetric analysis, collected by the Button Samplers to total particulate concentrations measured by the Grimm and DustTrak were performed for all sampling events. SR-120-05 Occupational Exposures to Diesel and Alternative Fuel Emissions in Underground Mining: A Simulated Pilot Study E. Lutz, R. Reed, V. Lee, University of Arizona, Tucson, AZ Objective: Diesel fuel is commonly used for underground mining equipment, yet diesel engine exhaust is a known human carcinogen. Alternative fuels, including biodiesel, and a natural gas/diesel blend, offer the potential to reduce engine emissions and associated health effects. This study aimed to compare personal exposures to diesel and alternative fuel emissions at an underground mine. Methods: For this pilot study, personal exposure monitoring was performed in a hard rock underground mining laboratory during operation of a load-haul-dump (LHD) vehicle. Use of lowsulfur diesel, 75% biodiesel/25% diesel blend (B75), and natural gas/diesel blend (GD) fuels were compared. Personal samples were collected for total and respirable diesel particulate matter (tDPM and rDPM, respectively), total and respirable elemental and organic carbon (tEC, rEC, tOC, rOC, respectively), as well as carbon monoxide (CO), formaldehyde, acetaldehyde, naphthalene, nitric oxide (NO), and nitrogen dioxide (NO2). NIOSH methods 5040, 6014, 2016, and 5506 were utilized. Study subjects operated the LHD for 200-minute exposure periods for diesel and B75 emission exposures, consisting of specific mucking activities. Research scientists conducted the same procedures for GD, albeit for 100-minute exposure rotations. Mine ventilation was controlled as much as possible during exposure assessments, and the area was allowed to ventilate for one week between sessions. Results: Compared to diesel, B75 use was associated with a 33% reduction in rDPM, reductions in rEC, tEC and naphthalene, increased tDPM, tOC and NO, and no change in rOC, CO and NO2. Compared to diesel, GD was associated with a 66% reduction in rDPM and a reduction in all other exposures except CO. Conclusions: The alternative fuels tested both resulted in reduced rDPM, which is the basis for the current Mine Safety and Health Administration (MSHA) occupational exposure standard. Although additional study is needed with a wider variety of equipment, use of alternative fuels have the promise of reducing exposures from vehicular exhaust in underground mining settings. Results: Results of the linear regression analysis of the Grimm and aerosol data and Button Sampler data and DustTrack data with Button Sampler data for subtilisins obtained during sampling events show a strong relationship between the these methods (R2=0.922 [p<0.001], r=0.96 [p<0.001]) and www.AIHce2015.org 49 SR-120-06 Characterization of Metal Fume Emitted from Stainless Steel Plasma Cutting J. Wang, T. Hoang, E. Floyd, University of Oklahoma Health Sciences Center, Oklahoma City, OK Objective: Plasma cutting is a metal fabrication technique commonly seen in industries. The process creates a hightemperature arc zone to melt metals and hence produces clean cuts at high speed. Workers are exposed to metal fumes emitted during the cutting process. Metal fume from plasma cutting performed on stainless steel may consist of hexavalent chromium (Cr6+), nickel, and manganese. These toxic metals are either carcinogen or neurological toxin, all can cause serious health effects upon inhalation. The size of the particles is critical for the respiratory deposition and pulmonary toxicity. The study aimed to evaluate the effects of operation parameters on the fume formation rates, metal compositions, fume particle size distributions (PSD) and morphology. Methods: A conical American Welding Society (AWS) fume chamber and high-volume air sampling pump were used to collect plasma cutting fume, respectively. 308L stainless steel metal plates were cut using a plasma cutter with operating arc currents between 20 to 50 amperes (A). The total fume collected on glass fiber filters were determined gravimetrically and normalized to arc time. Cr6+ in the fume was analyzed using an ion chromatograph following NIOSH 7604 method. Nitrate in the fume was also measured as an indicator of oxidation levels. The fume PSD was examined using a scanning mobility particle sizer and aerodynamic particle sizer for sub-micron and supermicron particles, respectively. The particle morphology was imaged through a transmission electron microscope. Results: Total fume generation rates under different arc currents ranged from 17.54 mg/min arc time at low current (20 A), to 110.41 mg/min arc time at high current (50 A). The fume generation rates increased with higher current, but decreased with longer arc time. Estimated Cr6+ concentration in the sampled air was above OSHA PEL of 5 µg/m3. Both TEM images and PSD measurement confirmed the primary particles in metal fume were in the ultrafine to sub-micron range, with a median diameter around 150 nm. Conclusions: The experiment results indicated the plasma cutting fume contained high concentration of nanoparticles loaded with toxic metals such as Cr6+. The operating parameters (arc time and current) affected the fume generation rate and Cr6+ concentration. Proper respiratory protection and adequate ventilation should be utilized to reduce the worker’s exposure. PO121 Biological Monitoring Wednesday, June 3, 2015, 10:00 AM - 12:00 PM CS-121-01 Regulatory, Legal, and Analytical Considerations for Assessing Consumer Risk from Titanium Dioxide in Personal Care Products J. Persky, ENVIRON International Corp., Chicago, IL; L. Haroun, ENVIRON International Corp., Emeryville, CA Situation/Problem: Risk assessment in the context of California Prop65 regulations may at times require a prima facie determination of exposure in the absence of a criterion value 50 AIHce 2015 | May 30 – June 4 | #AIHce for dose. Competing regulatory, legal, and scientific influences introduce challenges to the risk assessment process. To determine whether consumer exposures to respirable TiO2 are detectable during the use of personal care products, we developed an exposure assessment strategy based upon the fundamental scientific principles described in NIOSH Current Intelligence Bulletin 63. The sampling strategy and analytical methods were scrutinized based upon the selected exposure metric and associated detection limits. Resolution: Five consumer products were evaluated in a series of isolation-chamber studies representative of 4 cosmetic product categories, including face powder, eye shadow, nail powder, and sunscreen. Multiple data points were generated by conducting 18 independent task-duration exposure assessments. Results: All analytical results were non-detect, thus demonstrating that the presence of TiO2 in a bulk product does not directly correlate to a consumer inhalation exposure at a concentration which is relevant from a risk-based perspective. Study variables, such as applied product mass and application frequency, were found to be consistent with historical tradeassociation data from a survey of over 10,000 U.S. women. Lessons Learned: Study design and analytical method selection in the absence of a criterion for data interpretation presents a significant challenge, especially when confronted with regulatory processes which influence the scientific research approach. Nonetheless, a defensible exposure assessment strategy may be developed based upon relevant toxicological data coupled with realistic exposure factors. The distinctions between novel scientific research and agency-sanctioned analytical methods are critically important to the development of a study design which meets Prop65 regulatory intent. SR-121-02 Measuring Broad Relationships across Mining Citation and Injury Data from 1983-2012< R. Reed, M. Savit, E. Lutz, University of Arizona, Tucson, AZ Objective: As the reduction in injury rates in modern years slows, many question the role of the Mining Safety and Health Administration (MSHA) in improving safety and health. This pilot work aimed to measure the existing correlations among MSHA citation and mining injury data from 1983-2012 in an effort to understand the role mining regulatory compliance plays in preventing injury. Methods: This study analyzed basic associations between annual MSHA regulatory compliance- and injury-related data from 1983-2012 obtained from the online msha.gov injury and U.S. Department of Labor’s enforcement databases. Operator and contractor injury data were combined, and data for office workers were included. Seven compliance and production ‘inputs’ were utilized, including citations (excluding serious and substantial citations [CT]), SNS citations (SCT), orders, SNS orders, inspection hours, penalty amounts, and production. All compliance measures were unadjusted by the number of operations, miners, or full-time equivalent. Eight injury ‘outcomes’ were considered, including fatal injuries, fatality incidence rate, non-fatal-days-lost (NFDL) injuries, NFDL incidence rate, no-days-lost (NDL) injuries, NDL incidence rate, all injuries, and all injury incidence rate. Correlation coefficients were determined using the Spearman’s rank test for the entire period and by decade. Further modeling was performed using the General Estimating Equation. An alpha error threshold of 0.05 was utilized. Results: In most cases, CT were negatively (rs=-0.64 to -0.82, p<0.05) correlated with multiple injury outcomes during the 1st and 3rd decades, with no correlation during the 2nd. Generally, SCT were positively (rs=0.78 to 0.92, p<0.05) correlated during the 1st and 2nd decades, with virtually no correlation for the 3rd. Overall, orders correlated negatively during the 1st and 3rd decades (rs=-0.64 to -0.79, p<0.05), and positively during the 2nd decade (rs=0.64 to 0.77, p<0.05). Conclusions: Negative correlations suggest that increasing regulatory compliance is related to decreasing injury outcomes, while positive correlations suggest the reverse: decreasing compliance is associated with injury reduction. This study was not designed to demonstrate causation; rather, it simply measures correlation between MSHA regulatory activities and mining injury outcomes, but sheds light on the broad relationships between regulatory compliance and injury outcomes. SR-121-03 Heat Index and Adjusted Temperature as Surrogates for Wet Bulb Globe Temperature to Screen for Occupational Heat Stress T. Bernard, I. Iheanacho, University of South Florida, Tampa, FL Objective: Ambient temperature and relative humidity are readily available; and thus tempting metrics for heat stress assessment. Two methods of using air temperature and relative humidity to create an index are Heat Index and Adjusted Temperature. The purposes of this research were: (1) to examine how well Heat Index and Adjusted Temperature estimated the wet bulb globe temperature (WBGT) index and (2) to suggest how Heat Index and Adjusted Temperature can be used to screen for heat stress level. Methods: For conditions relevant to Heat Index and Adjusted Temperature, psychrometric relationships were used to estimate values of actual WBGT for conditions of air temperature, relative humidity, and radiant heat at an air speed of 0.5 m/s. Results: A relationship between Heat Index [°F] and WBGT [°C] was described by WBGT = -0.0034 HI2 + 0.96 HI - 34. At lower Heat Index values, the equation estimated WBGTs that were ±2°C-WBGT around the actual value; and to about ±0.5°C-WBGT for Heat Index values > 100°F. A relationship between Adjusted Temperature [°F] and WBGT [°C] was described by WBGT = 0.45 Tadj - 16. The actual WBGT was between 1°C-WBGT below the estimated value and 1.4°C-WBGT above. That is, there was a slight bias toward overestimating WBGT from Adjusted Temperature. Heat stress screening tables were constructed for metabolic rates of 180, 300, and 450 W. The screening decisions were divided into four categories: (1) < alert limit; (2) < exposure limit; (3) hourly time-weighted averages of work and recovery; and (4) a Caution zone for an exposure > exposure limit at rest. Conclusions: The authors do not recommend using Heat Index or Adjusted Temperature instead of WBGT, but they may be used to screen for circumstances when a more detailed analysis using WBGT is appropriate. A particular weakness is accounting for radiant heat; and neither air speed nor clothing was considered. SR-121-04 Piloting Infrared Technologies for Measuring Body Temperature in High School Football Players R. Reed, O. Quiroz, E. Lutz, University of Arizona, Tucson, AZ Objective: While personal heat strain monitoring can be an effective way of detecting physiologic strain in occupational or athletic settings, many of the most accurate and current solutions are invasive, inconvenient, and/or expensive. This study aimed to explore and correlate the use of infrared (IR) thermometry (IRM) and thermography (IRG) with tympanic thermometry (TPM) in an athletic setting. Methods: Eleven male high school football players (six wide receivers, three linemen, one quarterback, and one defensive back) in the desert southwest were recruited and then monitored over four days in August. Pre-, mid-, and postpractice measurements were taken using a conventional tympanic thermometer, industrial IR thermometer, and IR camera. Pre-practice measurements were taken in the locker room, while mid- and post-practice measurements occurred on the sidelines. For this study, TPM was used in lieu of more accurate, invasive heat strain monitoring methods, and were taken according to manufacturer instructions. For IRM measurements, the investigators scanned various portions of the players’ faces for approximately 10 seconds, from a distance of one meter, and the maximum observed temperature was recorded. IR thermographs were analyzed and the maximum facial temperature and location recorded. Results for combined mid- and post-practice measurements are reported. Pearson’s Correlation Coefficients were computed utilizing an alpha error threshold of 0.05. Results: The mean TPM, IRM, and IRG temperatures were 36.8 ±0.44°, 35.5 ±0.86°, and 37.1 ±0.80° Celsius, respectively. Overall, the IRM correlated significantly (p=0.004) with TPM, albeit weakly (r=0.356). Likewise, the IRG was significantly correlated to TPM (p<0.001) with a weak coefficient (r=0.475). Mixed results were observed for pre-practice measurements, with IRG significantly correlated to TPM (r=0.766, p<0.001) while IRM was not (r=0.305, p=0.138). Mid- and post-practice TPM measurements were significantly correlated for both IR devices (p<0.05) but with similarly weak coefficients (r=0.37 for both). Conclusions: One possible explanation for the generally stronger correlation of IRG as compared to IRT is the ability to locate the warmest portion of the face with software. The prepractice IRG was more strongly correlated with TPM than midand post-practice measures. This study lays groundwork for future investigation of IR technologies in heat strain monitoring. CS-121-05 Chemical Sensitizer Sampling and Exposure Control Strategies T. Morris, Morris Innovative IH & Safety Solutions, Cincinnati, OH Situation/Problem: Occupational asthma (OA) and allergic contact dermatitis (ACD) continue to be important workrelated diseases in spite of low OELs and exposure control methods. Controls follow route of exposure and target organ: LEV and respirators for respiratory sensitizers and gloves for dermal sensitizers. Sensitizers are treated the same with no distinctions based on potency, concentration or other relevant workplace conditions. Clearly this approach is lacking and other techniques are needed. Resolution: Immunotoxicology work has refined our understanding of sensitization and has resulted in a reassessment of sensitizer route of exposure and control methods in light of animal/human evidence of respiratory sensitization via skin contact and dermal sensitization via inhalation. The mouse LLNA can identify a SEN and quantify its potency; the resulting µg/cm2 dose metric (EC3) can be used in www.AIHce2015.org 51 a risk assessment (as in the personal care products industry). Peak/high exposures are most likely to produce sensitization and indicate task-based or upset condition sampling must supplement full shift sampling. Rarely considered are occlusion (i.e., gloves) or irritant chemical use, both of which facilitate sensitization, are common in workplace environments, and are important site- and industry-specific induction factors. Results: Reduction in airborne levels of some sensitizers has not significantly reduced the incidence of sensitization. Skin contact has been shown to be an important sensitization route for Be and the isocyanates, historically only associated with inhalation exposure. Sensitizer potencies span five orders of magnitude, yet the control methods and PPE selected are all the same. Lessons Learned: Chemical sensitizer exposure assessment and control should include all routes of exposure (emphasizing the main target organ). Focus has expanded to include work surface and tool contamination, exposures during PPE removal and non-production task exposures. Sensitizers’ mode of action, potency data and process characteristics (i.e., irritant chemical exposure, concentrated or dilute) should be coupled with taskbased and full shift air sampling and wipe sampling. Only after a thorough exposure assessment can resources be directed to high risk activities, worker education and more complete protection so OA/ACD are prevented. SR-121-06 Evaluation of a Button Inhalable Sampler with a Grimm Monitor to Determine Air Concentrations of Subtilisin J. Cross, CBI Federal Services, Clifton Park, NY Objective: Currently, there is no OSHA or NIOSH monitoring method for subtilisin. This study evaluated a personal aerosol monitoring method for detection and quantification of subtilisin. The ACGIH ceiling limit and NIOSH Short Term Exposure Limit (STEL) for subtilisin is 0.06 μg/m3. This study specifically evaluated the use of an SKC Button inhalable aerosol sampler with a Grimm Aerosol Monitor for monitoring low concentrations of subtilisin particulates in air within a laundry detergent production facility. Methods: Air samples of detergent with subtilisin were collected using a Button sampler containing a glass fiber filter concurrently with a Grimm model 1.109 Aerosol Spectrometer. Nineteen sampling events of 4 hours each were performed over a seven week period, with three Button samplers operating simultaneously. Sampling locations included a detergent containing subtilisin (DCS) production area and a specially constructed enclosure where DCS was introduced in a controlled manner. Sample analysis was conducted with a Konelab Arena 20 analyzer to quantify the amount of subtilisin collected on the filter of each air sample. Results: A linear regression for the concentration of DCS aerosol measured in the enclosure by the Grimm was compared to the average concentration of DCS aerosol measured on the Button filter in the enclosure, which produced an R2 value of 0.64 (p value = 0.006). The Pearson’s correlation produced an r value of 0.8 (p value = 0.006). The linear regression for the average concentrations of DCS aerosol measured on the Button filter media compared to the average subtilisin detected from the aerosol in the enclosure produced an R2 value of 0.66 (p value = 0.004). The Pearson’s correlation produced an r value of 0.81 (p value = 0.004). 52 AIHce 2015 | May 30 – June 4 | #AIHce Conclusions: The results of the statistical evaluation from the aerosol monitoring results in the enclosure indicate the Button inhalable sampler compared with the results from the Grimm aerosol monitor may be a valid method for determining airborne subtilisin concentrations for aerosols with diameters less than or equal to the 25 μm particle size. However, due to all results below the limit of quantitation at the DCS production area, it is concluded that there are insufficient results to determine if the Button sampler with the Grimm aerosol monitor can be used in the workplace. PO122 Nanotechnology: New Developments in Exposure Assessment, Sampling Technology, and Respirator Protection Wednesday, June 3, 2015, 10:00 AM - 12:00 PM CS-122-01 Refinement of the Nanomaterial Emission Assessment Technique into the Nanomaterial Exposure Assessment Technique (NEAT 2.0) A. Eastlake, C. Beaucham, K. Martinez, M. Dahm, C. Sparks, L. Hodson, K. Dunn, C. Geraci,K. Dunn, NIOSH, Cincinnati, OH Situation/Problem: Increasingly, workers in various industries, from cosmetics to transportation, are involved in the research, development, manufacture, production, use, recycling, and disposal of nanomaterials or products containing nanomaterials. The Nanoparticle Emission Assessment Technique (NEAT) was published in 2009 by authors from the National Institute for Occupational Safety and Health (NIOSH) as an initial step to semi-quantitatively evaluate potential occupational emissions that could lead to exposures in workplaces where nanomaterials are used. The method has been applied in numerous workplaces and has demonstrated that release of nanomaterials in an occupational setting does occur. Since the publication of the original NEAT, further studies have broadened our understanding of measurement techniques and interpretation in these environments. Resolution: Nanomaterial emission and exposure characterization studies have been completed at more than 60 different facilities by the National Institute for Occupational Safety and Health. These experiences have provided NIOSH the opportunity to refine an earlier published technique, the Nanomaterial Emission Assessment Technique, into a more comprehensive method aimed at assessing worker and workplace exposures. This change is reflected in the name Nanomaterial Exposure Assessment Technique and indicated as different from the original method as NEAT 2.0. Results: This refined version of the original strategy includes a comprehensive assessment of emissions at process and job tasks, and an assessment of worker exposures that includes nanomaterial identification, mass concentration, particle counts and concentrations, and evaluation of the migration of materials throughout a facility. Additionally, evaluation of worker practices, ventilation efficacy, and other engineering exposure control systems serve to allow for a comprehensive exposure assessment. Lessons Learned: This information is used to develop appropriate risk management strategies for minimizing worker exposure to ENMs. While no individual technique alone can adequately characterize potential exposure to nanomaterials, the combination of all these methods, which constitute NEAT 2.0, allows a more in-depth characterization of the of the potential for occupational exposure within the nanomaterial industry. SR-122-02 Characterization of Nanoparticles Generated from Synthesizing Advanced Materials S. Tsai, J. Beltz, A. Dysart, V. Pol, Purdue University, West Lafayette, IN Objective: This research characterized particle release during an experimental nanomaterial production process, and estimated the risk of human and environmental effects that this process could produce if it were put into industrial production. Prevention through design is a focus of this research. Methods: The examined process was the laboratory-scale synthesis of advanced materials using solid-state chemical reactions at elevated temperatures. While it appeared that the desired product could be scaled up, the possibility of toxic emissions was of great concern. Direct-reading instruments and samplers were used to take measurements of the exhausted material and analyze the unknown substances which were collected as aerosols and liquid suspensions. Airborne emissions were analyzed using particle counters, i.e. TSI Nanoscan SMPS, OPS, and Dust Trak, for number and mass concentration, and were collected on polycarbonate filters and TEM grids for morphology and elemental composition analysis using SEM, TEM and XEDS. For emissions in liquids, released aerosols were collected in DI water using impinge and analyzed using the Nanosight characterization system for the particle size distribution, concentration and mobility. The production process was studied operando, i.e., heating, reaction and cooling. Results: An elevated number of nanometer to micrometer diameter particles were generated and released from this synthesis process. Particle number concentration exceeded 106 particles/cm3 for diameters from 10–420 nm; in addition, micrometer-sized particle concentrations were elevated as well. The mass concentration (particle diameter <10µm) exceeded 100 mg/m3. The airborne particle size mode was approximately 200 nm and the mode for particles collected in water using impinger was approximately 100–200 nm. Many nanoparticles were found to contain O, Si, S, Cl, and Sn. Tin, a toxic metal, was present at the highest concentration. Conclusions: A follow up study is planned to analyze possible process changes to minimize the metal nanoparticles produced as side products. An in vitro study using human lung cell is planned to investigate the toxicity level corresponding with reduced tin following the process change study. Engineering controls were in use including aerosol filtration and a water bath with air filter. The water bath filter was required to collect the released particles; proper ventilated fume hoods and filtration will have to be used during actual production. SR-122-03 Exposure Associated with Personal Protective Clothing Contaminated with Nanoparticles S. Tsai, X. Huangm C. Han, Purdue University, West Lafayette, IN Objective: This study investigated nanoparticle exposures associated with the contamination of protective clothing during manipulation of clothing fabrics contaminated with nanoparticles. The contaminated clothing could release nanoparticles in the general room while performing other activities and manipulating the clothing after work. Inhalation exposure is the route of exposure of most concern to cause adverse health effects. The objective is to identify the magnitude of particle contamination and release. Methods: The exposures associated with three different fabric materials (cotton, polyester and Tyvek uses) were investigated in this study by measuring the number concentration increase and the weight change on fabric pieces. This study simulated real life occupational exposure scenarios and was performed in both regular and clean room environments to investigate the effect of background aerosols on the measurements. Concentrations were measured using particle spectrometers for diameters from 10 nm to 10 µm. Collected aerosol particles and contaminated fabric surfaces were characterized using scanning electron microscopy (SEM), transmission electron microscopy (TEM) and elemental composition analysis. Results: The magnitude of particle release from contaminated lab coat fabric was found to vary by the type of fabric material; cotton fabric showed the highest level of contamination and particle release, followed by Tyvek and polyester fabrics. The polyester lab coat material was found to have the lowest particle release to deposition (R/D) ratio. The particle release number concentrations were in a range of 768 to 119 particles/cm3 and 586 to 187 particles/cm3 in regular and clean rooms respectively. Multiple peaks were observed in the number concentration distribution data, with particle diameters peaking at 40 to 50 nm and 100 to 300 nm. Conclusions: The scanning electron microscope (SEM) analysis of the contaminated fabric surface found test particles and other environmental particles. The elemental composition analysis presented detectable response to the studied alumina oxide particles. The laboratory coat primarily made of cotton woven material is not recommended for worker protection against nanoparticle exposure because of the highest particle contamination and release ability. In addition, the result demonstrated that a cleanroom environment is critical to investigate the factors affecting nanoparticle interaction with protective clothing. SR-122-04 Evaluation of Self-Supporting, Single-Walled Carbon Nanotube Bucky Paper Sorbents for the Application in Diffusive Sampling and Photothermal Desorption E. Floyd, OUHSC, Oklahoma City, OK; C. Lungu, J. Oh, M. Saina, UAB, Birmingham, AL Objective: To describe the fabrication and evaluation process of self-supporting Single-Walled Carbon Nanotube (SWNT) bucky paper sorbents for application in diffusive sampling and analysis by photothermal desorption. Methods: Approximately 50 mg of SWNT powder was suspended in toluene by ultrasonication for 2 hours in a chilled water bath (~8C). Suspended SWNT was deposited on a 47 mm (5 um pore size, PTFE) membrane using a vacuum apparatus and allowed to fully dry while under vacuum (~ 1 hr.). Deposited SWNT forms a sturdy self-supporting bucky paper that is easily delaminated from the PTFE membrane. Bucky paper sorbents were desorbed in an oven at 130C for at least 48 hrs. prior to obtaining toluene adsorption isotherms at 23C and 732 torr. Toluene adsorption isotherms were collected before and after annealing at 300C in air. Sorbent mass loss due to annealing was measured and adsorption capacity was calculated from adsorption isotherms www.AIHce2015.org 53 Results: Toluene adsorption capacity increased approximately 25% after annealing (pre-annealing = 95 ug toluene / mg sorbent, post-annealing = 120 ug toluene / mg sorbent.) The variability in adsorption capacity was reduced after annealing and sorbents retained their flexibility and durability. Sorbent mass loss after annealing was approximately 9 mg (~18%). Minimal mass loss was observed beyond 4 hours of annealing. Conclusions: Self-supporting, low mass bucky paper sorbents can be fabricated using a simple, scalable process; low energy sonication, vacuum filtration, thermal treatment. Selfsupporting bucky paper sorbents are well suited for application as a sorbent in a diffusive sampler with analysis using photothermal desorption. SR-122-05 Comparison of Simulated Workplace Protection Factors Offered by N95 and P100 Air-Purifying Respirators against Particles of 10 to 400 nm X. He, West Virginia University, Morgantown, WV; Z. Zhuang, E. Vo, M. Bergman, M. Horvatin, NIOSH/NPPTL, Pittsburgh, PA Objective: To compare the simulated workplace protection factors (SWPFs) provided by NIOSH-approved N95 and P100 class filtering facepiece respirators (FFR) and elastomeric half-mask respirators (EHR) against sodium chloride particles (NaCl) in a range of 10 to 400 nm. Methods: Twenty-five human test subjects performed modified OSHA fit test exercises in a test chamber filled with generated NaCl particles while wearing respirators (two FFR models and two EHR models) containing N95 class filters and respirators (two FFRs and two EHRs) containing P100 class filters. Two Scanning Mobility Particle Sampling Systems (SMPS) (Model: 3080 EC with Model 3772 CPC, TSI, Inc.) were used to measure aerosol concentrations (in the 10-400 nm size range) inside (Cin) and outside (Cout) of the respirator, simultaneously. SWPF was calculated as the ratio of Cout to Cin. The SWPF values obtained from the models with N95 filters were then compared to those measured with respirators containing P100 filters. Results: SWPFs were found to be significantly different (P < 0.05) between respirators containing N95 and P100 class filters. The 10th, 25th, 50th, 75th and 90th percentiles of the SWPFs for the respirators with N95 filters were much lower than those for the respirators with P100 filters. Respirators with N95 filters had 5th percentiles of SWPFs > 10. In contrast, respirators with P100 class filters were able to generate 5th percentile SWPFs > 100. No significant difference was found in the SWPFs when evaluated for nano-size (10 to 100 nm) and large-size (100 to 400 nm) particles. Conclusions: Overall, the findings suggest that, for subjects that pass a quantitative fit test, respirators containing P100 class filters provide better protection against 10 to 400 nm particles than the respirators containing N95 class filters. This trend is also true for nanoparticles (10 to 100 nm). SR-122-06 Simulated Workplace Protection Factors Offered by N95 and P100 Air-Purifying Respirators against Submicron Particles Z. Zhuang, E. Vo, M. Bergman, NIOSH, Pittsburgh, PA; X. He, West Virginia University, Morgantown, WV; M. Horvatin, URS, Inc., Pittsburgh, PA 54 AIHce 2015 | May 30 – June 4 | #AIHce Objective: This study investigated simulated workplace protection factors (SWPFs) measured utilizing N95 and P100 class filtering facepiece respirators (FFR) and elastomeric halfmask respirators (EHR) against submicron particles (20 nm to 1,000 nm). Methods: Twenty-five human test subjects performed a modified version of a U.S. Occupational Safety and Health Administration (OSHA) quantitative fit test (6 exercises, 3 minutes each) in a chamber of sodium chloride aerosols primarily in the submicron range. The six exercises were: 1) normal breathing, 2) deep breathing, 3) moving head side-to-side, 4) moving head up and down, 5) bending over, and 6) a simulated laboratory vessel cleaning motion. Eight respirator models were evaluated (two N95 FFRs, two N95 EHRs, two P100 FFRs, and two P100 EHRs). The SWPFs for each model were measured using a PortaCount Pro+ (regular mode for measuring both face seal leakage and filter penetration). Before a SWPF test for a given respirator model, each subject had to pass a quantitative fit test. Results: The effect of the respirator model on SWPFs was significant (p < 0.05). Geometric mean (GM) SWPFs were statistically different for P100 EHRs and P100 FFRs. GM SWPFs were not statistically different for N95 EHRs and N95 FFRs. GM SWPFs of P100 EHRs and FFRs combined were > 1,000, which was 10-fold higher than the GM SWPF of the N95 class EHRs and FFRs. Conclusions: The 5th percentiles of the SWPFs for the P100 EHRs and FFRs combined were > 20, whereas those for the N95 models were all < 10. PO123 Real-Time Detection Systems Wednesday, June 3, 2015, 10:00 AM - 12:00 PM CS-123-01 NIOSH Center for Direct Reading and Sensor Technologies: Enabling a New Era of Safety, Health, Well-being, and Productivity D. DeBord, NIOSH, Cincinnati, OH; M. Hoover, Morgantown, WV Situation/Problem: The use of sensors is expanding as countless remote wireless sensors are now employed for monitoring the environment, work sites, disaster relief, agriculture, and health. Newly developing wearable and even implantable sensors could aid in hazard and exposure assessment and control by allowing individuals to monitor their own environments. Smart phone technology has helped to drive this area. Little guidance, however, is available that can aid the occupational health and safety professional in selecting the sensor most appropriate for the situation at hand. Information on validation of newer sensors is not always available. Ethical concerns about the use of sensors must also be resolved. Resolution: The NIOSH Center for Direct Reading and Sensor Technologies (NCDRST) was formed in May 2014 to coordinate a national research agenda on sensors and direct reading monitors; develop guidance on selection sensor validation, quality control, and training; and establish partnerships to collaborate in these activities. Results: Through its NCDRST activities, partnerships, and collaborations, NIOSH intends to advance the development, validation, and application of these technologies to enable a new era of occupational safety, health, well-being, and productivity. The recent NIOSH evaluation of smart phone applications for assessment of noise is an example of work that can foster the use of advanced sensors and methods as primary tools for industrial hygiene in the 21st century. Building on the guidance for selection of gas and vapor technologies that was published in 2012, a chapter for the NIOSH Manual of Analytical Methods will be developed on the technologies, use, selection, and quality control issues. Lessons Learned: In 2008, NIOSH, in partnership with AIHA, hosted a workshop on direct reading exposure assessment methods and monitors to identify gaps and needs in this area. Areas identified included basic research needs, standards and guidelines for the validation of new sensors, and development of training. Given the evolving nature of sensors, a collaborative and targeted effort is necessary to meet these needs. Additional information about the center and partnering opportunities can be found at www.cdc.gov/niosh/topics/drst/. SR-123-02 Field-portable Fourier Transform Infrared (FTIR) Spectroscopy for the Measurement of 1-bromopropane Concentrations in Air P. Smith, OSHA, Sandy, UT Objective: Measurement of airborne stressor concentrations in near real-time is desirable to obtain feedback on potential exposure intensity while still in the field. This allows optimization of traditional sampling, and also quickly provides information on how changes in production or the introduction of control measures may impact worker exposure. The objective of this study was to verify the usefulness of gas-phase Fourier transform infrared (FTIR) spectroscopy for measurement of airborne 1-bromopropane in a work environment. Methods: A flow-through dynamic air standard generator was used with measured delivery of 1-bromopropane into ultrahigh purity nitrogen to create quantitative reference spectra at concentrations ranging from 5.40 to 148 ppm. Field samples of approximately 15 liter volume were rapidly collected (<30 s) into 5-layer aluminized bags at a manufacturing plant where a degreaser was operated using 1-bromopropane. Approximately 2 liters of air from a bag were used in the field for FTIR analysis, and triplicate charcoal tube samples were then collected from each bag for lab analysis and comparison to the field FTIR results. Absorbance from 1350 to 950 cm-1 was used for FTIR quantitation of the target analyte. This region excludes strong absorbance related to carbon dioxide and water vapor, and includes peaks related to 1-bromopropane that in all cases demonstrated absorbance <0.5 absorbance units. Results: The triplicate sample laboratory results were in good agreement for each bag that represented four field samples, and average 1-bromopropane concentrations of 6.2, 6.2, 12.7, and 25.3 ppm were measured in these bags. The matched FTIR results obtained in the field were 7.6, 6.9, 11.7, and 24.5 ppm 1-bromopropane respectively, and these data show that the gasphase FTIR system results were highly correlated with those from charcoal tube sampling (R2 = 0.99). Conclusions: The methods used to obtain quantitative reference spectra and then the use of the gas-phase FTIR system produced quantitative data that proved useful in estimating 1-bromopropane concentrations while still in the field. The ability to rapidly sample air into a bag, followed by quantitative analysis of that air in near real-time using gas-phase FTIR can be helpful in guiding traditional short-term sampling to cover periods of maximum exposure for analytes where this is relevant, and also to evaluate changes to processes and controls in near real-time. SR-123-03 Real-Time Detection of ppb Levels of Benzene in Industrial Atmospheres J. Driscoll, J. Maclachlan, PID Analyzers, LLC, Sandwich, MA Objective: The OSHA method for benzene involves the collection on a charcoal tube and return to the lab, for desorption with carbon disulfide and analysis by gas chromatography (GC) with a flame ionization detector (FID). The target concentration for this benzene method is 1 ppm since that is the PEL. While the photoionization detector (PID) is an ideal screening tool for detecting low or even sub ppm levels of benzene, it responds to all VOC’s, so the measurement of benzene at or below 1 ppm is not very accurate. However, when we use a PID with a GC the detection for 1 ppm of benzene is precise. We propose to develop a hand-held GC with a PID to detect to detect low ppb levels of benzene in real time and “on site”. Methods: The hand-held GC weighs less than 3 pounds, is able to operate for >6 hours on a battery, is easy to operate and has a small external tank for carrier gas (nitrogen) that can be clipped onto a belt. The hand held GC stores the peak height and concentration data. If a chromatogram is needed, up to 20 are stored in memory and if more are needed, the 0-1 VDC analog output can be connected directly to a PC with PeakWorksTM, the accompanying chromatography integration software. Results: A permeation tube was used to generate ppb levels of benzene in air. A chromatogram of 500 ppb of benzene (OSHA action level) in air produces a large signal (0.5 VDC) on the GC. The detection limit for benzene is approximately 5 ppb or 1% of the action level. The analysis time is 2 minutes presently but with some optimization, it can be reduced to about 1 minute which would be ideal. Conclusions: The GC/PID method provides a very rapid and sensitive technique for the real-time analysis of benzene at ppb levels in the field. The precision of benzene for 5 samples at 1/10th of the PEL was excellent at 5.8%. A special precolumn with back flushing was used to remove interferences. CS-123-04 Worker Exposure Assessment Strategies for Tank Gauging Operations Conducted in the Bakken Oilfields (North Dakota) J. Hill, P. Smith, D. Pearce, OSHA, Sandy, UT Situation/Problem: The Bakken oil field encompasses a multilayered hydrocarbon deposit over nearly 200,000 square miles. Bakken crude oil has a light hydrocarbon profile, and hydrogen sulfide is often absent from the production stream. Across this field, workers manually gauge storage and production tanks, exposing them to gases and vapors emitted from the crude stream. Time-weighted average sampling is commonly used yet for gauging during Bakken crude production peak and IDLH exposure conditions may be more important. Resolution: Several methods have demonstrated value in assessing tank gauging exposures at production sites, with focus on measurement of peak and/or IDLH exposures. Grab samples were rapidly collected into 5-layer aluminized bags, and two measurement approaches were then applied. Brief www.AIHce2015.org 55 needle trap sampling was completed from a bag within minutes of air collection, and analysis was performed immediately using a person-portable gas chromatography-mass spectrometry (GC-MS) instrument to obtain hydrocarbon composition data. Triplicate sorbent tube samples were obtained from each bag for stabilization of grab sample analytes compatible with this sampling approach, and bulk crude oil samples were collected. Results: Field GC-MS analyses avoided the potential loss of C3 and C4 analytes from bags and showed that these permanent gases were important components in the breathing zone exposure profiles, which were dominated by C3 - C6 hydrocarbons. Laboratory analyses of the bulk crude oil samples showed the presence of C3 - C24 compounds. While the sorbent tube stabilization method used did not measure analytes smaller than C5 due to lack of retention, at least one breathing zone grab sample stabilized on sorbent tubes contained combined C5 - C6 hydrocarbons at levels of about 1500 ppm. Lessons Learned: This work demonstrates a need to determine the potential for IDLH conditions based on the sum of fractional IDLH values observed for compounds with similar physiological effects. Further work should be completed with sorbent tubes or whole-air analysis methods that include C3 and C4 compounds in the overall quantitative exposure assessment. Comprehensive analysis of whole-air samples may require the use of portable GC to avoid loss of very light analytes, and calibration of the person-portable GC-MS instrument used in this work as well as a larger van-mounted instrument is under investigation. SR-123-05 Real-Time Detection System for Measuring VOCs, Temperature, Humidity, and Location K. Brown, K. Mead, R. Kovein, P. Shaw, NIOSH, Cincinnati, OH; R. Voorhees, Univ. Cincinnati, Cincinnati, OH; A. Brandes, MeasureNet LLC, Cincinnati, OH Objective: The objective of this project was to build and test a direct reading method (DRM) prototype instrument that contained an indoor real-time location system (RTLS). This personal exposure and location (PEAL) measurement device incorporated Wi-Fi data communication, radio location transmitters, and sensors for volatile organic compounds (VOC’s), humidity, and temperature. Antennas on the wall monitored the location device and sent real-time location data to a remote laptop. The sensor data was merged with location on work area floor plans and displayed on a laptop monitor. Methods: The prototype PEAL measurement device was tested for accuracy and precision using two measurements at each of 4 locations and 3 gas concentrations with location and concentration randomized. Additional testing included a simulated chemical release scenario that resulted in 4 runs with 4 trials each. All test scenarios were conducted within an indoor 5000 sq. ft. work area. The simulated chemical was sampled 4 times once after each of the 4 runs. The calibration data were analyzed by regression analysis. The chemical release was confined to a room with elevated VOCs, temperature, and humidity. Results: Location measurements were accurate to 1.5 meters with a standard deviation of 0.4 meters and obtained at a measurement frequency of 1.4 seconds. The PEAL’s PID sensor had accuracy of 9.9%. In other words, for a given fraction, say 0.95, and a given concentration θ, 95% of the measurements are expected to fall in the range (0.901xθ, 1.099xθ). The precision was 4.3% measured over a range of 0.2 to 10. ppm and with an LOD of 0.2 ppm. The PEAL measurement device was able to 56 AIHce 2015 | May 30 – June 4 | #AIHce detect a simulated VOC release within seconds of entering an exposure area triggering an audio alert at both the PEAL device and the remote laptop. Conclusions: This novel PEAL measurement device was able to instantaneously measure chemical vapors and wirelessly communicate their concentration and location to a remote lap top while providing personal alarms of exposure. The data were stored for later analysis, including a “four dimensional graph” (3 spatial dimensions and color for concentration) plot that produced an exposure hazard map. In practice, this 4-D map could subsequently be used to identify high hazard work locations and correlate them with a time and task. The PEAL device provided immediate feedback of exposure and later 4-D location-exposure map. SR-123-06 Combatting Humidity and Other Matrix Gases on the Response Hand-held PIDs W. Haag, Ion Science USA, Stafford, TX. Objective: Hand-held PIDs have long suffered from 1) drifting high readings at very high RH, causing a false positive reading in the absence of VOCs and 2) quenching of VOC signal, causing a false low reading as RH increases. This paper discusses options for avoiding these effects, including humidity filtering tubes, Nafion humidity exchangers, RH compensation algorithms, and newer PIDs insensitive to humidity. This study also examined the effects of oxygen and methane on PID response. Methods: Various manufacturers’ PIDs were tested by measuring the response at constant isobutylene concentration while varying the humidity from 0 to 95%. Gas mixtures were generated using a flow system to mix dry isobutylene with air humidified by passing through a water bubbler. PIDs with RH compensation were tested with compensation both on and off. Similarly, gas mixtures were generated at fixed VOC concentration while varying oxygen from 0 to 98% (in nitrogen) and with methane concentrations up to 20% in air. Results: Instruments that incorporate a humidity sensor and attempt to compensate tend to show poor results. For example, a Tiger PID showed almost no humidity effect at all VOC concentrations, while a MiniRAE 3000 overcompensated by +60% at 10 ppm & 85% RH and undercompensated by -25% at 1000 ppm & 85% RH. Oxygen quenched the VOC response by as much as 40% low in pure oxygen. Between 0 and 40% oxygen, the VOC response was generally between +/-20% of the reading in air, and often much closer. Methane strongly quenches the VOC response when the methane concentration in about 1% by volume. Modern PIDs show less effect, but in pure methane the VOC signal is so strongly quenched in all cases that the readings are near zero. Conclusions: 1) Recent developments in PID technology has resulted in PIDs with greatly reduced humidity effects. This avoids the need to use complicating features like humidity filtering tubes, Nafion gas humidifiers or firmware compensation algorithms. The simplest, most accurate solution is to use a newer PID that is inherently unaffected by humidity. 2) Variations in oxygen concentrations in calibration gases are not likely to affect calibration accuracy in modern hand-held PIDs. 3) Methane quenches the VOC response to a similar extent, although some PIDs are somewhat better than others. PIDs cannot be used to measure VOCs in natural gas. PO124 Risk Modeling Tools in the Current and Future Toolkit Wednesday, June 3, 2015, 10:00 AM - 12:00 PM CS-124-01 Selecting Risk Assessment Tools: Uses, Abuses, and Confusion B. Beadie, P. Wiescher, T. Ashton, E. Curtis, Maul Foster Alongi, Portland, OR. Situation/Problem: An equipment manufacturer suspected that the coating on some parts provided by an overseas supplier contained hexavalent chromium. The manufacturer had requested that the supplier disclose the use of hazardous materials, including hexavalent chromium, and had been assured that no such hazardous materials were present. The manufacturing company consulted with attorneys to determine an appropriate course of action, which prompted a literature review to help characterize the risks associated with hexavalentchromium-containing coatings. Unfortunately, no clearly applicable study was discovered during the literature review, so the company had to find a different way to characterize the risk associated with handling coated parts. Resolution: Reasonable worst-case exposure to coated parts was estimated by reviewing equipment manuals; interviewing people knowledgeable about the operation, maintenance, and handling of coated parts; and observing representative tasks. The presence of hexavalent chromium was qualitatively identified with colorimetric swabs, and wipe sample results provided quantitative data to help characterize potential exposure. An exposure model was developed based on previously published studies. Apparent discrepancies between two different risk screening models were resolved by identifying improper hexavalent chromium exposure assumptions in one of the models. The risk characterization was conducted using established USEPA information as well as the 2010 USEPA draft toxicological review for hexavalent chromium. Results: Considering the established USEPA toxicological information for hexavalent chromium, the reasonable worstcase hazard index is estimated to be 0.00021, which is much lower than the hazard index criterion of 1. Using the USEPA draft toxicological review for hexavalent chromium, the worstcase hazard index is estimated to be 0.00071 and the worst-case carcinogenic risk is estimated to be 1.1 x 10-7. These results demonstrate that the risk of exposure to hexavalent chromium is not expected to be significant for personnel who operate, maintain, or handle parts associated with the manufacturer’s equipment. Lessons Learned: Some situations require a scientific approach to characterize risks that may intuitively seem insignificant to many people. Even peer-reviewed published studies may contain errors or faulty assumptions, so it is important to clearly understand the underlying details of the risk assessment to properly characterize the risk. Toxicological information is everevolving and a literature review should be conducted as a matter of course to understand the most recent findings and related uncertainties. SR-124-02 Comparison of CHARM and COSHH Essentials for Selected CMR Chemicals S. Byeon, M. Kim, S. Shin, J. Lee, M. Ham, Korea University, Seoul, Republic of Korea WITDRAWN. CS-124-03 A Research Vision for Occupational Based Cumulative Risk Assessment R. Niemeier, NIOSH, Cincinnati, OH; G. Dotson, Blue Ash, OH Situation/Problem: Understanding the health risks associated with coexposures to multiple hazards, called cumulative risk assessment (CRA), is an area of increasing interest in environmental health. Awareness of the interaction of these hazards in the occupational setting is important as well. Traditionally, risk assessment in the occupational setting has focused on chemical stressors in the workplace; however, interactions between these chemical stressors and other nonchemical stressors (biological, physical, and psychosocial), inside and outside of the workplace are more representative of exposure scenarios. Also, the interaction of these stressors with personal risk factors (i.e. genetics, personal habits) can affect health outcomes and should be considered in occupational risk assessment. Resolution: NIOSH is conducting an exploratory project to investigate methods for incorporating occupational risk factors (ORFs) into already developed CRA techniques. The first phase of the project is to lay the foundation by establishing a research vision that addresses key elements of the CRA project including: 1) identifying problems and the scope for incorporating ORFs into CRA; 2) defining common language for evaluating and communicating key aspects for the advancement of CRA; 3) identifying critical needs and data gaps; and 4) describing critical questions designed to focus and guide relevant research. Results: The research vision will be developed in collaboration with subject matter experts (SMEs) from government agencies, private industry, and academia who have expertise on interrelated CRA topics (e.g., risk assessment, toxicology, exposure assessment). These SMEs will be tasked to define key elements and critical questions of the research vision. SMEs will be grouped based on their expertise and personal interests to address specific topics of the research vision. Critical questions will be organized into common themes based on a broadly recognized risk assessment paradigm including hazard characterization, dose-response assessment, exposure assessment, and risk characterization. Lessons Learned: A well designed research vision is a critical initial step to the success of the NIOSH CRA project. After this phase of the project is completed, the project focus will shift to developing a series of risk assessment element case studies and devising a CRA framework which will incorporate ORFs into existing and novel CRA techniques. www.AIHce2015.org 57 CS-124-04 Cumulative Risk Assessment for Occupational Scenarios: Screening Level Tool for the IH Practitioner A. Lamba, U.S. Environmental Protection Agency, Vienna, VA environmental regulatory agency alleging “The contamination continues to be active and what is worse, it goes beyond the property. There are 600 workers exposed to serious risk.” The RA report was found to be flawed. Situation/Problem: Cumulative Risk Assessment (CRA) and Aggregate Risk Assessment (AgRA) are being increasingly applied in risk assessments for the general population. However, application of AgRA and CRA to occupational scenarios has been limited, although such scenarios might have greater magnitudes of exposure, multiple exposure routes, and interactions between workplace chemicals and other stressors. While their value has been highlighted in the science literature, current frameworks, guidelines, and tools for conducting AgRA and CRA for occupational scenarios are lacking. Resolution: Three scenarios were modeled to evaluate the effect of conservative estimates for worker inhalation exposure from vapor intrusion. Relevant pathways by groundwater migration and vadose zone transport were modeled. The building no longer existed so aerial and site photos were utilized for model input values. The RA model used by others predicted hypothetical indoor air concentrations that were high due to unrealistically conservative assumptions. Correction of the RA models to use realistic parameters demonstrates that theoretical risk does not exceed the risk criteria established by the governing regulatory authority. Resolution: A two-step process was undertaken for developing and documenting a checklist tool to examine if it could be used by industrial hygiene practitioners for applying CRA approaches to occupational exposure scenarios. First, studies and reports that address the topic of CRA and AgRA in occupational settings were identified to evaluate current approaches to AgRA and CRA. Additionally, a screening level process checklist was developed to serve as an occupational exposure scenario evaluation tool, which was then applied to two occupational case studies to determine its utility. Results: Insufficient information existed to develop AgRA and CRA for either of the case studies. In one case, the NIOSH Health Hazard Evaluations used for the worked case studies did not provide sufficient information to determine whether cumulative risks may be different from or exceed aggregate risks, and in the other, all compounds of potential interest from each exposure route were not measured. Lessons Learned: Although additional information would be required to evaluate both AgRA and CRA for occupational exposures, the developed checklist/scenario evaluation tool may assist industrial hygienists by providing consistency and assisting in identifying important data gaps so that additional documentation for missing exposure pathways and stressors can be requested. The present approach is semi-quantitative in nature because all information required to conduct a quantitative AgRa or CRA is usually not collected, and/or may be difficult to collect. A more risk-based approach, similar to that conducted for environmental RA (e.g., modeling of exposures or biomonitoring, comparison of exposures with risk-based reference concentrations, etc.) might better characterize cumulative risks. Disclaimer: The views of the authors of this abstract are those of the authors and do not represent Agency policy or endorsement. CS-124-05 Modeling Historical Risk to Industrial Building Occupants from Leaking Underground Storage Tank Vapor Intrusion F. Boelter, J. Persky, S. Song, B. Schnorr, ENVIRON International Corp., Chicago, IL Situation/Problem: A pair of co-located USTs containing diesel fuel and xylenes were at a facility in a newly industrialized country. The diesel UST was found to be leaking and was ultimately removed. The xylenes UST was also removed but found to be intact. Based on a publically available risk assessment report developed to meet site remediation objectives, an activist precipitated fear by filing a complaint with the local 58 AIHce 2015 | May 30 – June 4 | #AIHce Results: The responsible regulatory agency has established a cumulative exposure index of ≤1 as an acceptable criterion for multiple contaminants with non-cancer health effects. A ratio of the conservatively modeled concentration to the OEL facilitated a cross-comparison for each parameter. The summation of all such ratios for all hydrocarbons was presented as a cumulative exposure index. The three models yielded Em values of 0.0035, 0.00023, and 0.0000002 all of which are significantly less than an Em of 1. Actual exposures, if any, would have been even lower. Lessons Learned: Models have value in characterizing historical exposures, dose, and risk. An improper risk characterization can create outrage making the challenge not about risk management or even risk reduction but rather an unfounded fear of disease both within a workforce and the surrounding community. Attention to detail is required when designing a risk assessment and attention must be given to the characterization of risk. Involvement of relevant stakeholders can be helpful to assure a successful outcome. SR-124-06 The Need for a Revised, Risk-Based, Occupational Exposure Standard for Asbestos J. Rasmuson, A. Korchevskiy, E. Rasmuson, Chemistry & Industrial Hygiene, Inc., Wheat Ridge, CO; V. Roggli, Duke University, Durham, NC Objective: To evaluate the adequacy of the current occupational exposure limit for asbestos and to recommend an alternative general standard or at least a Best Management Practices (BMP) value for amphibole fibers based on separate risk calculations of three separate international government agency methods. Methods: Both linear and non-linear characterization of doseresponse relationships have been suggested. Different asbestos exposure metrics were considered for the risk assessment. Risk calculations based on the Berman and Crump work in the United States, the non-linear Hodgson and Darnton procedures of the United Kingdom, and the asbestos potency factors determined by the health agency of the government of Netherlands are considered, as well as various case-control studies. Results: Current risk assessment procedures demonstrate that risk from amphibole asbestos exposure are up to about an order of magnitude higher than risk calculations performed to justify the current OSHA PEL and the NIOSH REL. Excess risk can be demonstrated for fibrous amphibole exposures above typical cumulative background levels through the results of casecontrol studies. Conclusions: The current EPA and OSHA asbestos risk assessment methodology is believed by some to be adequate because of the precautionary principle, with the understanding that it is precautionary to consider mesothelioma and lung cancer potencies equal for all fiber types. However, that approach tends to average the potency across all asbestos fiber types, and, in so doing, greatly underestimates the risk of amphibole asbestos exposures. Thus, in the name of the precautionary principle, asbestos exposure limits are not precautionary. Although the current United States occupational exposure limit may be adequate for chrysotile, it is woefully inadequate for amphibole asbestos exposure. Moreover, exposure to asbestiform and fibrous amphibole exposure is more common in mining, quarrying, road construction, and soil excavation, than commonly believed. Although excess risk is still present in some circumstances, an occupational exposure limit of PCME 0.01 f/cc for asbestos would significantly reduce risk and likely save many lives. PO125 PPE Related Wednesday, June 3, 2015, 10:00 AM - 12:20 PM CS-125-01 A Multifaceted Silica Reduction Strategy on Oil and Gas Completion Sites: What Works and What Doesn’t E. Schmick, Encana Services Company Ltd., Denver, CO Situation/Problem: Industrial hygiene monitoring on oil and gas completion sites has uncovered significant worker exposure to respirable crystalline silica during hydraulic fracturing. Resolution: Since the quantification of this hazard, several types of engineered dust control systems have been put into practice. Control methodologies include several ventilation systems, sand storage systems, telebelt proppant inloading, and dust reducing coated sand. Results: Over 200 area samples and personal breathing zone samples were taken to quantify the problem and validate the dust control systems. Variable success was seen when using engineering controls, and it was found that each system had limitations for controlling exposure and visible dust. Lessons Learned: Overall, no single dust control system was found to be sufficient at consistently controlling personal exposures to below the ACGIH exposure limit, though many were effective at reducing respirable dust. It was recommended that engineered solution be part of a multi-faceted control approach. CS-125-02 Personal Protective Equipment Compliance Challenges of Agriculture Retail Facilities with Permanent Storage of Anhydrous Ammonia A. Kayne, Crop Production Services, Loveland, CO Situation/Problem: OSHA recently cited multiple agriculture retail facilities for failing to comply with ANSI K61.1 which requires facilities with permanent anhydrous ammonia storage to have on hand a “slicker and/or protective pants and jacket, all impervious to ammonia”. When an unexpected release of liquid ammonia from a pressurized system occurs in close proximity to workers the liquid may not have enough time to vaporize and liquid ammonia may directly contact workers. Anhydrous ammonia exposure can result in burns, frostbite, and even death. Workers that anticipate liquid and/or gaseous ammonia exposure wear airtight encapsulating suits for protection, but the ANSI required slicker to reduce the risk of direct dermal contact from an unexpected ammonia spray remains ambiguous. There is one known jacket and pant CPC that withstood testing to liquid ammonia for eight hours (following ASTM method F739 - Test Method for Permeation of Liquids and Gases through Protective Clothing Materials under Conditions of Continuous Contact) but this CPC was not accepted by retail workers. Our understanding is that retail facilities have some type of slicker on hand to comply with the ANSI slicker requirement; however, to our knowledge no slickers have been tested against liquid ammonia. How do agriculture retail facilities identify anhydrous ammonia impervious slickers? Resolution: Commercially available slickers were identified and tested (following ASTM F739) to determine if they were impervious to ammonia. The Quick Selection Guide to Chemical Protective Clothing (2014) was used to identify ammonia impervious materials. Commercially available slickers impervious to anhydrous ammonia were identified using laboratory results. Results: A third party laboratory tested slickers to determine the permeation of liquid anhydrous ammonia. Ammonia impervious materials were deemed approved and management required retail facilities to replace slickers and purchase the new approved slicker. Lessons Learned: The available ammonia impervious CPC was not accepted by retail workers. Requiring facilities to use CPC not approved by workers may discourage purchasing and use. Specifying an ammonia impervious make and model of slicker instead of CPC may improve acceptance and compliance. Approving commercially available slickers instead of CPC improved facility support because retail managers choose where to source PPE keeping some autonomy through this change. SR-125-03 Durability of Protective Gloves against Single-Walled Carbon Nanotube and Nano-size Titanium Dioxide P. Jaques, URS Corporation, Pittsburgh, PA; R. Weible, URS Corporation, Pittsburgh, PA; L. Portnoff, NIOSH/CDC, Pittsburgh, PA; P. Gao, NIOSH/CDC, Pittsburgh, PA Objective: To test the durability of commonly used disposable protective gloves against engineered nanomaterial (ENM) on abrasive surfaces. Methods: To mimic worker handling of ENM deposited on rough surface materials, a robotic hand donned with nitrile gloves was challenged against fine-grit sandpaper contaminated with either single-walled carbon nanotubes (SWCNTs) or nano-size titanium dioxide (TiO2) particles by lightly swiping its forefinger across the sandpaper. To simulate a wide range of exposure conditions, particles were tested both as a powder, and as a slurry using surfactant as its solvent to de-agglomerate and disperse particles in solution. The hand was double gloved with the inner layer glove sprayed with artificial human perspiration on its outer surface. The work conditions were set in an enclosed chamber at 900F and 60% relative humidity. The time for the glove barrier to be damaged was determined by visual observation for gross tears or an air leak approach for minor abrasions. Results: Dry powders resulted in a damage time greater than two hours for both SWCNT and TiO2. The slurry had damage www.AIHce2015.org 59 times that approached two hours for SWCNT, and no greater than 10 minutes for TiO2. For both ENMs, increasing slurry particle concentration increased the damage time. Breaching of the glove’s integrity was primarily caused by the abrasive surface. The particles appeared to have a smoothing effect, both in the dry-solid and liquid-slurry phases. Our previously presented work showed SWCNT particles filling the spaces between the sandpaper’s aluminum oxide particles. The smoothing effect was suggested by a decrease in damage time with a decrease in particle-slurry concentration, where the solvent cleared particles from the sandpaper’s surface. The dramatic increased damage/protective time for the slurry SWCNT in comparison to the slurry TiO2 was because the SWCNT showed a greater adherence to the abrasive surface. Conclusions: The experimental approach simulates glove performance under typical occupational use conditions. The results demonstrate that dry powders provided a longer damage time than slurry did. In the liquid-slurry phase, increased damage times were observed when increasing particle concentrations, and TiO2 had a significantly shorter damage time than SWCNT. Overall, the nitrile gloves were more durable for the dry powders than for the slurries. SR-125-04 Surface Area as a Method for the Determination of Glove Degradation K. Steele, California State University San Bernardino, Cherry Valley, CA; T. Pelham, California State University San Bernardino, Cherry Valley, CA; R. Phalen, California State University San Bernardino, Cherry Valley, CA Objective: Chemically resistant gloves are an important aspect of personal protective equipment, as they are used to protect workers from chemical hazards. Chemical resistant gloves are made from a variety of polymer materials such as butyl, natural latex, neoprene, nitrile rubber and vinyl, as not one material provides protection against all chemicals. One type of polymer material may adequately protect against a specific chemical, but not against another. Experiments, such as degradation tests, are used to determine which material is most resistant to chemical action for each chemical tested. Current methods of degradation testing are often based on weight change, which can require a sensitive analytical balance and be expensive. The aim of this study was to evaluate an inexpensive surface area alternative to gravimetric analysis. Methods: Five polymer samples were exposed to 50 different commercial chemical products for 24 hours. Gravimetric and surface area analyses were performed before and after the chemical exposures. Gravimetric analysis was conducted using an analytical balance. Surface area change was evaluated using a digital scanner and ImageJ software (National Institutes of Health). Results: The percent change data were compared between the weight change (x) and the surface area change (y) results for each condition. The regression line given was y=0.4841x + 0.0187 and the R2 value was 0.9096. There was a strong positive correlation (Pearson r = 0.9519; p ≤ 0.05) between percent weight change and percent surface area change. On average, the percent change for surface area was about half that of the weight change, which indicated that the surface area method was more sensitive than the gravimetric determination. Conclusions: The results of this study indicate that surface area change is an effective, sensitive and inexpensive alternative to gravimetric analysis for the evaluation of chemical degradation. Using this information, a rating system was developed for determining the degradation of gloves using surface area. These methods are of use to practicing industrial hygienists who need to select appropriate chemical resistant gloves for complex mixtures and when chemical resistance data are not readily available. SR-125-05 Evaluation of the Chemical Degradation of Polymers Exposed to Complex Mixtures: Can We Predict Performance Based on Major Ingredients? T. Pelham, K. Steele, R. Phalen, California State University San Bernardino, San Bernardino, CA Objective: Current chemical resistant guides for gloves are designed to help determine which polymer type is appropriate for handling a specific chemical. However, many guides only provide information on common, pure chemicals, making these guides limited in scope. Most do not address the numerous commercial products and complex mixtures common to many industries. The aim of this study was to determine if current degradation information for pure chemicals can be used to predict the chemical degradation of polymer materials exposed to complex chemical mixtures, based on the major ingredients. Methods: Five common polymers were evaluated: butyl, natural latex, neoprene, nitrile rubber, and vinyl. A total of 50 commercial products were used to evaluate predicted versus observed chemical degradation. The product safety data sheets were used to identify the main chemical constituents for each product. Chemical resistant charts and databases were used to predict which polymer was most suitable. Both gravimetric and tensile strength analyses were used to evaluate chemical degradation following constant immersion within the chemical mixture. Results: The evaluations of pure chemical glove recommendations did not reliably determine an appropriate glove recommendation for mixed chemicals. In 58% of the cases, the mixed chemical required a different glove than that of its pure chemical components. In addition, it was determined that current guides using solely weight change and/or permeation data were missing important information on tensile test performance. There were several instances (15%) in which the initial glove recommendation would be changed to a lower recommendation rating if the results of a tensile test were included. Conclusions: Current degradation information for pure chemicals cannot be used to reliably predict the chemical degradation of polymer materials exposed to complex chemical mixtures, based on the major ingredients. Degradation testing, in the form of weight and tensile property changes, can assist in the selection of an appropriate polymer type for chemical resistance. Tensile testing provides additional information, as it would relate to molecular changes within the polymer that can aid in the selection of an appropriate polymer material. SR-125-06 I’m Loading 1,3-butadiene. What Respirator Should I Use? D. Shoop, Total Safety, Houston, TX Objective: Determine whether Short-Term Exposure Level (STEL) and or full shift exposures to 1,3-butadiene require 60 AIHce 2015 | May 30 – June 4 | #AIHce the use of a full face piece supplied air respirator to provide adequate protection from vapors. Methods: Active monitoring with pump and tube was done for short tasks of connecting and disconnecting transfer hoses to tank trucks. There are control measures to reduce emissions of vapors. These samples were analyzed by OSHA method 56. Passive Organic Vapor Monitors were used to sample for full shift exposure to 1,3-butadiene. Time weighted average samples were analyzed by NIOSH 1024M GC/FID method. Results: Statistical analysis of four years of sampling data indicate that monitored levels can significantly exceed permissible exposure limits and the assigned protection factors for air purifying respirators. Sampling was performed at multiple locations. Conclusions: The chance of exceedance of the PEL’s for 1,3-butadiene while loading and unloading tank trucks is very likely. Representative sampling indicates the level of exposure is high enough to warrant a full face piece supplied air respirator. SR-125-07 Evaluation of Personal Cooling Gear for Occupational Settings K. Myers, R. Reed, E. Lutz, University of Arizona, Tucson, AZ Objective: In some industries with high ambient temperatures (T) that are difficult to control, personal cooling vests are considered a potential control for preventing heat strain in workers. This study evaluated the effectiveness of 3 cooling vests and reflective gear in 3 different controlled environments. Methods: The cooling effectiveness of three personal vests, including a circulatory cooling vest (CCV), an ice pack vest (IPV) and an air compressor vest (ACV), were evaluated with and without an internal heating source, and at three ambient conditions (approximately 25° Celsius, 32° Celsius, and 39° Celsius). Ambient T and relative humidity were continuously monitored throughout the study. For assessments without an internal heating source, vests were hung with the interior exposed to air. To roughly simulate an internal metabolic heat source, two heating pads, along with T probes and the cooling vest, were placed on the surface of a manikin. The surface T of each vest were evaluated using infrared thermography (IRT) at each ambient condition three times, for a total of nine tests with and nine without an internal heat source. IRT was utilized every 20 minutes for four hours, for a total of 12 measurements for each test. The highest performing vest, as determined by the previous tests, was then used under reflective gear evaluated in the same manner. Results: Across all 3 ambient conditions, and without an internal heating source, the unadjusted mean relative percent difference (RPD) in T change, measured via IRT, for the IPV and CCV were 15.97° (n=9) and 8.25° (n= 9) Celsius, respectively. For the IPV and CCV, the unadjusted mean RPD in surface T was 29.18° (n=9) and 9.85° (n=9) Celsius, respectively. Lastly, the internal probe results demonstrated an unadjusted mean RPD of 16.65° (n=9) and 14.86° (n=9) Celsius for the IPV and CCV, respectively. Conclusions: In our study, the CCV outperformed the IPV. We anticipate that the ACV will outperform the IPV and CCV. The ACV, however, is limited by its mobility and may not be feasible in some settings, such as firefighting or underground mining. We also anticipate that the addition of the reflective gear will significantly increase the vests’ cooling performance. This study will help inform industries’ policy and risk management decisions as they work to prevent heat strain. PO126 Environmental and International EH&S Issues Wednesday, June 3, 2015, 10:00 AM - 12:20 PM SR-126-01 Environmental Impacts of Hydraulic Fracturing on a Lake in West Virginia: A Case of Radionuclide Partitioning and Disequilibrium A. Nelson, M. Schultz, University of Iowa, Iowa City, IA Objective: Hydraulic fracturing and horizontal drilling (i.e., unconventional drilling) for shale gas has emerged as an important technology for supplying energy to the United States and the rest of the world. However, there are many unknown and uncharacterized potential environmental pollution risks. Naturally-occurring radioactive materials (NORM) are some of the least characterized environmental pollutants generated by unconventional drilling. Emerging reports have indicated that NORM is not fully removed from liquid wastes during wastewater treatment processes and can enter riparian environments. Though, these reports have focused on a single radionuclide, radium-226, and have not addressed radium-226 decay products. The goal of this study was to investigate levels and equilibrium status of radium-226 and its decay products (lead210 and polonium-210) in water and sediment in an aqueous environment impacted by hydraulic fracturing. Methods: Water and sediment samples were collected upstream, within, and downstream of a freshwater lake in West Virginia, using routine methods as recommended by the U.S. EPA. All metal, inorganic, organic, gamma spectrometry (HPGe), and water quality measurements were performed by University of Iowa State Hygienic Laboratory in accordance with NELAC standards. Alpha-emitting isotopes (natural uranium, polonium-210) were analyzed by isotope-dilution alpha spectrometry using NIST-traceable standards. Results: Radioactivity concentrations of NORM in stream sediments were generally lower than NORM levels in the lake and well below action levels (180 Bq/kg). Levels of uranium-238 and uranium-234 in the lake were less than 25 Bq/kg. Levels of lead-210 (98-125 Bq/kg) and polonium-210 (110-163 Bq/kg) were significantly elevated over levels of radium-226 (52-65 Bq/ kg). Levels of NORM in water samples were in the low mBq/L range. Conclusions: We found levels of lead-210 and polonium-210 in sediments of a lake receiving treated unconventional drilling liquid wastes were 3-5 fold higher than levels of the supporting radionuclide, radium-226. This work suggests that lead-210 and polonium-210 cannot be assumed in equilibrium with radium-226. Risk, exposure, and environmental impact assessments to NORM liberated by unconventional drilling should consider radium-226 decay products. SR-126-02 Erionite as an Occupational and Environmental Hazard in the Western U.S. M. Harper, NIOSH, Morgantown, WV Objective: The objective of this study is to evaluate the presence and hazard potential of the fibrous zeolite mineral erionite in the western states. Methods: Samples containing erionite have been collected from several areas. Cliffs in north-west Oregon were sampled www.AIHce2015.org 61 at various horizons and examined under an optical microscope in the field. Approximately 10 kg of rock with the greatest concentration of erionite fibers (about 80%) were collected and transferred to RTI International to be made available as a research material. Cliffs in the Custer National Forest of South Dakota and Montana were also sampled. The Arikaree Formation (Palaeogene) contained up to 20% erionite. Finally, “woolly” erionite was collected near Austin, Nevada. These materials have been examined by phase-contrast and polarized light microscopy, scanning and transmission electron microscopy (with energy-dispersive spectroscopy) and x-ray diffraction. Preliminary toxicological experiments have been carried out to provide data on which to base a more comprehensive study. Results: Rome, OR erionite is now available in 10 gm vials from RTI International. Erionite is seen to be a highly diverse mineral, with a range of morphologies, and a considerable range of cation chemistry between sources, and also between individual particles from a single source. A cation content methodology for identifying erionite could not be supported and a method based on polarized-light microscopy and x-ray diffraction appears necessary. Finally, preliminary studies point to possible differences in toxicity between materials from different locations. Conclusions: Exposures to erionite have already been documented in aggregate mineral extraction and road construction and maintenance. However, the hazard posed by erionite may vary from location to location. SR-126-03 Association of Urinary 8-hydroxy-2’-deoxyguanosine Levels with Aging and Increased Fractional Exhaled Nitric Oxide in Elder Chinese Women J. Yuan, School of Public Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China Objective: Indoor air pollutants from environmental tobacco smoke and cooking oil fumes can cause respiratory problems in Chinese women, lead to the releases in proinflammatory cytokines and oxidative DNA damage. However, effects of normal ageing and increased fractional exhaled nitric oxide on urinary 8-OHdG levels in elderly Chinese women are unknown. Methods: Subjects were derived from the baseline survey of a cohort study. Among 3053 participants, those with missing data on FeNO, urinary 8-OHdG levels, height and weight and certain diseases (such as cancer, stroke, diabetes, ischemic heart disease, chronic obstructive pulmonary disease and asthma) were excluded. Finally, a total of 2224 adults (779 males and 1445 females) were included in this study. Information on personal social-demographic characteristics, occupational history, personal medical history, life habit and living conditions, type of cooking fuel used, coal kitchen ventilation ways was obtained by interviewing study subjects using structured questionnaires. Physical examination (such as height, weight, waist and hip circumference) and blood and urinary sample investigations (urinary 8-OHdG levels) for all participants were conducted. Factors affecting urinary 8-OHdG levels were analyzed using multiple linear regression analysis. Results: The results from multiple linear regression models show that there was a relative increase in urinary 8-OHdG levels in females aged ≥ 64 years without active and passive smoking and with lower FeNO ( 59.7% (95% CI: 5.0-142.9%) 62 AIHce 2015 | May 30 – June 4 | #AIHce or higher FeNO (71.5%, 95% CI: 23.5-138.0%), compared to females aged < 64 years without active and passive smoking and with lower FeNO. After adjusting for potential confounders, we found a relative increase in urinary 8-OHdG levels (△% of urinary 8-OHdG: 74.1% (95% CI: 17.7–157.4%) in females aged ≥ 64 years with higher FeNO and self-catering using LPS only, without active and passive smoking, compared to females aged < 64 years with lower FeNO and self-catering using fuel LPS only, without active and passive smoking. Conclusions: Cooking-related pollutants may chronically induce inflamed state in Chinese women aged ≥ 64 years without active and passive smoking, and increased the urinary 8-OHdG levels, synchronously, ageing also enhanced the health impact. CS-126-04 Meeting the Challenge of Measuring Health and Safety Performance Globally: ASTM Standard E2920 - 14 for Recording Occupational Injuries and Illnesses D. Woodhull, S. Newell, ORCHSE Strategies, LLC, Washington, D.C. Situation/Problem: As U.S.-based companies have expanded their operations globally, accurate accounting of occupational injuries and illnesses in non-U.S.-based locations has proven difficult. In seeking a means to standardize measurement of their worldwide safety and health performance, many have faced the challenge of imposing the U.S. OSHA recordkeeping requirements throughout their sites. This has created confusion and inaccuracy due largely to the differing definitions of medical treatment in different cultures. Less-serious cases have gone unreported in cultures that place a high value on conforming to the norm. In addition, work relatedness of cases as set forth by OSHA has been difficult to understand and apply consistently across the globe. Resolution: ASTM Standard E2920 - 14, Standard Guide for Recording Occupational Injuries and Illnesses was drafted “to establish definitions and criteria for recording occupational injuries and illnesses to be used for measuring safety performance, evaluating safety program performance, and improving consistency when comparing international performance.” The criteria for recording cases are based on the outcomes of the cases, that is, the type of injury or illness sustained by the employee, and are limited to those of sufficient severity to cause death, are life threatening, life altering, or so serious that they require immediate intervention for recovery. Results: Several companies have implemented the standard in their global operations. The criteria have enabled them to make definitive decisions to record cases in which employees have sustained serious injuries or illnesses but have received treatments with the traditional medicine practices of specific Asian countries. Differences in approaches to treatment between U.S. and non-U.S. physicians and health care providers have been made irrelevant because of the focus on case outcomes, which has simplified the decision making process. The standard has made their injury and illness metrics more accurate and consistent. Lessons Learned: Case outcome as a key criterion for recording occupational injuries and illnesses provides a more consistent, accurate measure of safety and health performance than medical treatment. Focusing on cases that result in death, or that are life threatening, life altering or so serious that they require immediate medical intervention for recovery raises the likelihood of reporting and recording and provides for greater consistency. CS-126-05 Mentored Skill Building Increases Asbestos Hazard Awareness in Indonesia K. Gunderson, University of California, Berkeley, San Ramon, CA Situation/Problem: Chrysotile asbestos is imported into Indonesia and workers who process it are often unaware of its hazards. Indonesian academics and industry, influenced by the Chrysotile Institute, perpetuate the perception that white asbestos is safe. Only one grassroots worker safety advocacy group exists in Indonesia, the Local Initiative for OSH Network (LION), a registered non-governmental organization (NGO). It lacked the funds, tools and skills to perform an exposure assessment that could inform asbestos workers about the hazards in their factories. Resolution: Funded primarily by a $2,500 AIHA (Northern California Section) Developing World Outreach Initiative (DWOI) grant and mentored by expatriate DWOI member Karen Gunderson, LION conducted an exposure assessment, including air sampling and medical exams, at an Indonesian asbestos roofing material factory. LION staff made strong connections with the union and workers, identified high risk work practices, collected bulk, air and environmental samples, and coordinated medical screening for asbestos-related disease in eleven high risk employees. Results: The results were used to advise union members about hazards related to their asbestos exposures and to make recommendations for union advocacy to improve plant safety. Not only did LION staff gain exposure assessment skills, but they also made connections with supportive public health professors, a PhD student whose thesis will address early asbestosis in Indonesian workers, and the government’s occupational health minister. They learned which local medical facilities and practitioners are qualified to screen for asbestos related disease. All of the above are critical to LION’s continued ability to impact worker safety. In fact, last July LION was awarded a new grant from Korea Green Asia to perform an exposure assessment at another asbestos processing factory. Lessons Learned: Social connections, networking and building trust prior to collaboration in Indonesia was very important and slowed the project down, but once established the links were strong and will be used in future endeavors. The main lesson learned was that a small technical grant to a developing country, combined with the support of a knowledgeable mentor, opened up paths for a worker safety advocacy group to make greater impacts on worker safety and bring about social change. CS-126-06 Personal Breathing Zone Employee Exposure Monitoring for an Anaesthetic Agent at a Research and Development Facility in India A. Sharma, International Safety Systems, Inc., Faridabad, India; M. Mehta, International Safety Systems, Inc., Washingtonville, NY Situation/Problem: Immunization and surgeries are performed on rats / mice, as a part of research and development experiments. Immunization is performed by first anaesthetizing rats / mice in an induction chamber and then handing over to the investigators to perform immunization. Isoflurane (anaesthetic agent) vapors are supplied at a fixed concentration along with oxygen to the anaesthetic chambers. The anaesthetic chambers and the investigator work-bench are provided each with a prototype Local Exhaust Ventilation (LEV) for capturing waste anaesthetic gases. For surgery, isoflurane along with oxygen is supplied for anesthetization (pre-surgery, performed in an induction chamber) and is also supplied during surgery (for life support). A spot extractor (LEV) is available for induction chamber and a prototype LEV is available for surgery. Potential for employee exposure to investigators, surgeons and support staff existed during the routine activities. Resolution: Full shift/Eight-hour Time Weighted Average (TWA) and/or activity based personal breathing zone employee exposure monitoring for isoflurane was carried out using modified Occupational Safety and Health Administration (OSHA) 103 method. The results were compared with the Health and Safety Executive (HSE, UK) established Workplace Exposure limit (WEL)-TWA of 50 ppm (for an eight-hour work-shift). Results: The eight-hour TWA employee exposures to isoflurane was below10 % of the HSE (UK) established WEL-TWA of 50 ppm. Lessons Learned: The prototype LEVs and the spot extractor were effective in containing employee exposures below the recommended guideline values. When the absolute laboratory reported detection was studied among different employee exposure samples collected for similar surgery procedures, elevated isoflurane detection appeared in one of the samples, potentially due to unavailability of power back-up for the prototype LEV during surgery (as isoflurane supply was not interrupted during power-cut to ensure life support to rats / mice). It is recommended to ensure power back-up for prototype LEVs during surgeries. PO127 IH General Practice II Wednesday, June 3, 2015, 1:00 PM - 5:00 PM SR-127-01 Identification of the Electron Dose Threshold for Asbestos Fiber Chemical Analysis by TEM J. Martin, M. Beauparlant, IRSST, Montreal, QC, Canada; G. L’Espérance, École Polytechnique de Montréal, Montreal, QC, Canada Objective: Asbestos analysis is still an important part of industrial hygiene analysis. Today a lot of interest is in very fine fibers. Transmission electron microscopy (TEM) is the most powerful technique for counting and identification of asbestos fibres, its high image resolution allows the detection of the smallest fibers and the combination of X-ray energy dispersive spectroscopy analysis (EDS) and selected-area electron diffraction (SAED) leads to an unambiguous identification. While working on the assessment of the current analysis methods, it was observed that the electron dose should be less than a critical value to avoid the loss of certain elements. Exceeding this value leads to a decrease of the X-rays intensity of certain elements relative to others. This is an important part of the identification procedure. The objectives of this research are to define the value of this critical electron dose and determine if this value is unique for all chrysotile fibers, independently of their size. Methods: All analyses were performed using a 200 kV TEM equipped with a field emission gun (JEOL JEM-2100F) and a SiLi detector was used for EDS analysis. All chrysotile samples are from UICC Asbestos standards, Chrysotile “A” Rhodesian, on lacey carbon copper TEM grid. All analyses were done at a 100 www.AIHce2015.org 63 kV. The electron dose was measured using the phosphorescent screen of the TEM calibrated with a Faraday cage. Results: The identification of chrysotile thin fibers often relies on elemental composition, and more particularly on the intensity ratio of magnesium and silicon. This research has shown that the characteristics of the electron beam applied on a fiber can significantly influence this ratio. Since magnesium is more weakly bound, it is most affected by radiation damage. Several parameters characterize irradiation: current, beam size and accelerating voltage, they were studied to understand how to avoid this elemental degradation. Many chrysotile fibers of different sizes were tested and in certain cases it was possible to determine the value of the electron dose below which the analysis should be conducted to consider the results stable and reliable. Conclusions: The optimal parameters of the electron beam in TEM have been identified for the analysis of asbestos thin fibers. A value of electron dose threshold was found for many fibers and can be used to improve the reliability of the current methods. CS-127-02 Identification of Naturally Occurring Asbestos Work Areas in Coordination with an Exposure Management Program during Vegetation Management Activities L. O’Heir, San Francisco Public Utilities Commission, San Francisco, CA; B. Drews, Kennedy/Jenks Consultants, San Francisco, CA Situation/Problem: The San Francisco Public Utilities Commission (SFPUC) performs extensive vegetation management throughout Northern California where naturally occurring asbestos (NOA) is known or suspected. The following steps were followed by SFPUC during their 2010 and 2013 NOA exposure assessments: 1) NOA potential maps were used to identify possible worker exposures and to identify NOA work areas; 2) soil samples were collected to verify NOA map data; 3) employees were trained on NOA work practices; 4) activity based personal air monitoring was performed as part of an Exposure Management Program (EMP); and 5) work was done safely, verified by exposure assessments and field observations. Resolution: Published NOA map data was compiled into a single geographic information system (GIS) map layer which was superimposed over existing SFPUC GIS infrastructure maps. Bulk samples were collected in work locations to verify NOA mapped areas while personal air samples were collected during routine work tasks. Results: Fifty-three full shift personal air samples were collected during Phase I (2010) work. Weed whacking produced the highest 8-hour TWA asbestos exposure at 100% of the PEL via TEM analysis. As a result, employee weed whacking practices were amended to reduce exposures. In Phase II (2013), five of nine vegetation management tracts were designated as nonNOA work areas after evaluation of map data in combination with soil sampling results. Twenty-seven (8-hour TWA) and twenty-one (30-minute TWA) personal air samples were collected during Phase II vegetation management activities. Soil discing produced the highest 8-hour TWA asbestos exposure at 43% of the PEL while equipment cleaning produced the highest 30-minute TWA exposure at 11% of the EL (via PCM). Lessons Learned: Local geology, NOA map data and soil sampling can allow management to distinguish NOA versus nonNOA work locations prior to the start of vegetation management 64 AIHce 2015 | May 30 – June 4 | #AIHce work. Identification of non-NOA work areas can help to reduce operational costs and labor efforts. Activity based air monitoring indicates that a routine activity such as weed whacking can create significant personal exposures from localized emissions. An ongoing EMP is necessary to accommodate wide variations in NOA geological units, work practices and air monitoring results. Key aspects of an EMP should be reflected in task specific Codes of Safe Practice. SR-127-03 Determinations of Synthetic Musks in Personal Care Products by Solid-Phase Microextraction W. Tseng, S. Tsai, Institute of Environmental Health, College of Public Health, National Taiwan University, Taipei, Taiwan Objective: Emerging environmental pollutants have caused concerned in recent years. For example, a variety of chemical components such as synthetic musks (e.g., galaxolide (HHCB) and tonalide (AHTN)), which have been detected from consumer products, may be released into the environment. To assess the possible health effects, a method for the analysis of HHCB and AHTN in personal care products was developed in this research. The surveillance of the concentrations in food detergent samples in Taiwan was also performed. Methods: HHCB and AHTN were prepared in mixtures as standard solutions. The samples were first diluted by water and equilibrated for 5 minutes before the extraction. Hence, the extraction was performed at 25°C for 30 minutes with 500 rpm. The 65μm PDMS/DVB fiber was exposed to the headspace over the samples. After adsorption equilibrium has been reached, the SPME fiber was inserted into the injector of the gas chromatography with tandem mass spectrometry for thermal desorption and further analysis. Results: The SPME procedure coupled with GC/MS/MS analysis for the determinations of HHCB and AHTN in the samples of personal care products was established in this study. No carryover effect was observed from the thermal desorption of the sample. The linear range of all compounds ranged from 0.005 to 0.05 μg ml-1, and the method detection limits were 0.00015 to 0.00075 μg ml-1. Good linearity and precision were presented. More than 100 food detergents samples in Taiwan were determined for the concentrations of HHCB and AHTN. Health risk associated with the possible exposures were also assessed. Conclusions: The SPME procedure was applied in this study. Advantages over conventional methods, such as solve-free and time-saving, were reached. The sensitivities of the method for different compounds were low enough to determine the concentrations from personal care products. SR-127-04 Effects of a Series of Ketone Compounds on Liver Microsomal Aniline Hydroxylase Activity in Mice: Implications for Ketone-Drug Interactions in Exposed Workers W. Luttrell, Oklahoma Christian University, Edmond, OK Objective: Exposure to toxic chemicals in the workplace or environment can alter the way the body responds to the administration of therapeutic drugs, other xenobiotics, and endogenous materials. Studies have shown that ketones, such as acetone and pinacolone can produce liver microsomal enzyme enhancement. The purpose of this study was to determine the effect of ketone pretreatment on activity of microsomal aniline hydroxylase activity in the liver of mice. In order to determine if the size of the ketone metabolite influences degree of enzyme enhancement, five ketones of increasing size (acetone, 2-butanone, 2-pentanone, 2-hexanone, and pinacolone) were selected for pretreating mice. Methods: Groups of male CD-1 mice (n = 6) were pretreated subcutaneously with 90% LDLo (lowest published lethal dose) for each compound and then sacrificed 12 hours later. Liver microsomes were isolated and aniline hydroxylase activity was determined spectrophotometrically. The para-hydroxylation of aniline to para-aminophenol was used to assess the cytochrome P-450-dependent mixed-function oxidase system in liver microsomes. In this assay the para-aminophenol metabolite was chemically converted to a phenol-indophenol complex with an absorption maximum at 630 nm. Enzyme activities were expressed as nmol para-aminophenol formed per minute per milligram protein of tissue. Using a substrate concentration of 10 mM aniline HCl, the velocity of the enzyme reaction was determined in each assay, and was reported as the percent of the control enzyme activity. Using SPSS, statistical differences (p < 0.05) between the values of percent of control enzyme activity from ketone pretreated and control mice were determined. Results: Aniline hydroxylase activities were increased following pretreatment with all ketone compounds. There was increasing enzyme activity with increasing size of the ketone compound. Lower concentrations of the ketones were found to be enzyme stimulating in vitro, but higher concentrations of the ketones were found to be enzyme inhibiting in vitro. Conclusions: Pretreatment with ketone compounds of increasing size resulted in increasing liver aniline hydroxylase activity in mice. This implies that workers exposed to these ketone compounds, as well as other common workplace or environmental compounds that have ketone metabolites, may be at risk for ketone-drug interactions due to enhancement of drug-metabolizing enzymes. SR-127-05 Modern Design of Colorimetric Sensor Devices for Bisphenol A Dust Measurements A. Rossner, R. Alkasir, S. Andreescu, Clarkson University, Potsdam, NY Objective: Objective: The purpose of our work is to evaluate a new design for a portable paper-based sensing device for the colorimetric detection of Bisphenol A (BPA) in household dust. Bisphenol A (BPA) is found in polycarbonate plastic and epoxy resin and is used in variety a of commercial and consumer products. The leaching of BPA consumer products can result in human exposure via inhalation, ingestion, and dermal routes. As a result, humans have been exposed in their home and work environment to BPA. Several studies have reported detectable levels of total urinary BPA in the majority of individuals in a number of populations, in the United States and other locations around the world. To reduce human exposure we need improved sensing devices to allow for quick, effective and inexpensive screening of our living and working environment. Methods: Methods: A rapid procedure for dust collection is used with a sensitive method for BPA detection, based on the formation of a greenish color, on the test zone of the sensing device. The color results from the formation of a Schiff base compound, quinineimine, formed by reaction of chitosan with the enzymatic product of tyrosinase o-quinone on paper coated in a layer-by-layer (LbL) assembly approach. The designed system includes a paper-based sensor disk with a diameter of 0.6 cm. as a test zone for BPA detection, and the air-sampling cassette with a diameter of 37 mm as a collection area for household dust. Colorimetric response was concentration dependent with a detection limit of 0.28 µg/g. The color started to appear within the first 60 s and stabilized after 30 min. Replicate samples were run on a Gas Chromatography (GC) as means of validating the colorimetric data. Field sampling was conducted in a series of homes where dust specimens were collected from different homes and a day care center. Results: Results between the GC and colorimeteric sensor showed a linear regression (R2 = 0.9743) for samples measured by both of the colorimetric and GC methods. In this work, BPA ranged in concentration from 0.05 to 3.87 µg/g in 57 samples of household dust when both methods were used. Conclusions: While the sample set was relatively small (n=57), the correlation between the colorimetric sensor and GC method was excellent, thus we feel the sensors is promising as a quick, inexpensive means of measuring BPA in settled dust in the home and work environment. SR-127-06 Adsorption Characterization of Fabricated SingleWalled Carbon Nanotube (SWNT) Buckypapers for Volatile Organic Compound (VOC) Sampling C. Lungu, J. Oh, University of Alabama- Birmingham, Birmingham, AL; E. Floyd, OUHSC, Oklahoma City, OK Objective: To compare adsorption efficiency of single-walled carbon nanotube (SWNT) buckypapers obtained through different fabrication methods to be used as volatile organic compound (VOC) adsorbent. Methods: Arc discharge SWNTs suspended in surfactants (1% W/V of sodium cholate and sodium dodecyl sulfate) was fabricated into buckypaper. For that, 200 mL (50 mg) of the SWNT solution was suspended (diluted) in 400 mL of acetone for 15 hours, filtered through a polytetrafluoroethylene membrane filter under vacuum. SWNT cake deposited onto the filter was delaminated to obtain a buckypaper (no cleaning process). For cleaning SWNTs, additional steps were involved after SWNT solution was vacuum-filtered. SWNT cake was cleaned with 250 mL of deionized (DI) water and 50 mL of acetone (acetonecleaned). Alternatively, methanol was used to suspend SWNTs and in the cleaning process as well (methanol-cleaned). The fabricated buckypapers (n=2) were examined for adsorption efficiency in terms of surface area, pore size, and adsorption isotherm. Surface area and pore size were measured using a physisorption analyzer and adsorption isotherms were obtained by repeated indirect injection of liquid toluene into an adsorption chamber until adsorbent was saturated at 23°C. Results: Buckypapers without cleaning had 43 m2/g Brunauer, Emmett and Teller (BET) surface area (SA) with 15 nm average pore width while buckypapers cleaned with acetone and methanol exhibited 217 and 348 m2/g BET surface areas with 9 and 8 nm average pore widths, respectively. The toluene adsorption capacities were 52, 58, and 69 mg (toluene)/g (buckypaper) for not cleaned, acetone-, and methanol-cleaned buckypapers, respectively. Conclusions: The cleaning process with DI water and solvents (acetone and methanol) increased BET surface area and decreased the average pore size of the buckypapers. Toluene adsorption capacity increased with increasing surface area of buckypaper. Overall, buckyapers cleaned with DI water and www.AIHce2015.org 65 methanol were the most adsorptive. The methanol-cleaned buckypapers will be investigated for desorption efficiency using a photothermal desorption technique which desorbs an analyte by irradiating the sorbent with light, eliminating sample preparation time for analysis. SR-127-07 Isocyanates: Assessing Field Extraction D. LaGarde, OSHA, Sandy, UT Objective: OSHA has operated a National Emphasis Program (NEP) for Isocyanates that began June 2013. The NEP requires OSHA Compliance Officers (CSHOs) to perform a field extraction of air samples and then ship the extracted samples to Salt Lake Technical Center (SLTC) for analysis. Field extraction has been proposed to more effectively derivatize large isocyanate particles, providing higher and more accurate analytical results. Prior to the NEP, OSHA samples were laboratory extracted. Methods: In an effort to determine the impact of field extraction on compliance work, SLTC staff has been evaluating different aspects of field extraction versus non-field extraction techniques. SLTC performed a stability study to evaluate the necessity of special handling, over-night shipping, and/or cold storage of the field-extracted samples prior to analysis. Sample results were analyzed over the course of the NEP, and statistically evaluated the data against OSHA’s historical sample results. SLTC has coordinated side-by-side samples of non-field extracted and field extracted samples for isocyanates in different occupational processes. To assess the impact of field extraction on sample integrity and sample quality, spiked filters were sent to the field and extracted alongside field samples to assess the impact of field extraction on sample integrity and sample quality. Results: Sample stability results demonstrated field-extracted samples (glass fiber filters in 3-mL extraction solution), and nonfield extracted (dry filters) samples were equivalently stable: recoveries of 100% were obtained for both types of samples after 22-days, at ambient temperature. It has been suggested that field extraction will produce higher results. Sample result data for field extracted samples, show no observed trend in increased sample concentrations over previous years. Results from side-by-side field samples fail to reveal statistical difference between the two sample extraction methods. Quality control spiked samples are used to assess the Sampling and Analytical Error (SAE), a measure of uncertainty in analytical quantitative results. CSHO field extracted isocyanate samples has increased the SAE by over 5%. In addition, a significant percentage of field-extracted samples arriving at SLTC show signs of sample leakage. Conclusions: Studies performed to date, within the OSHA monitoring program for isocyanate sampling and analysis; show no compelling advantage of field extraction over laboratory extraction. SR-127-08 Determinations of Bisphenol A in Household Dusts by Microwave-Assisted Solid-Phase Microextraction C. Chang, C. Chang, S. Tsai, Department of Public Health & Institute of Environmental Health, College of Public Health, National Taiwan University, Taipei, Taiwan Objective: Indoor dust has been known as a sink for many semi-volatile organic compounds, such as bisphenol A (BPA). Since indoor environment can protect dust from sunlight, rain and biological degradation, pollutants then could be persistent 66 AIHce 2015 | May 30 – June 4 | #AIHce and accumulated in the residential environment. Up to now, the analysis of BPA in dust is solvent and time consuming. Therefore, the purpose of this research was to develop a method for the determinations of BPA in dusts simultaneously by using microwave assisted headspace solid-phase microextraction (MAE-HS-SPME). Methods: In this study, commercial vacuum cleaner was used to collect household dusts while particles with diameter smaller than 150μm were filtered out by stainless mesh. After cleaning by the Soxhlet extraction, the sample with known amounts of BPA spiked was then put in a vial for the MAE-HS-SPME extraction followed by the analysis with gas chromatograph and mass spectrometer (GC/MS). Several parameters affecting the SPME extraction efficiency were optimized. Results: The results showed that the desorption efficiency was 100% when the desorption time was 5 min under 250°C. The best suitable fiber coating was 65μm Polyethylene Glycol (PEG) and the optimum condition of MAE-HS-SPME for extraction of BPA in dust was 20 minutes at 80°C by the addition of 1 mL water. The linear range for the analysis was 1.25 ~ 125 ng/g dust (r=0.99). Conclusions: Compared with tradition extraction methods, the MAE-HS-SPME provides a time saving, easy for operation and solvent-free procedure. CS-127-09 Vacuum Desiccation Applications for the Increase of Polyvinyl Chloride (PVC) Filter Stability C. Irwin, Galson Laboratories, East Syracuse, NY Situation/Problem: Polyvinyl Chloride (PVC) filters having a 37-mm diameter and a 5 µm pore width are widely used as industrial hygiene sampling media and are recommended as the media of choice in an array of NIOSH gravimetric methodologies (NIOSH 0500/0600/5000). Precise post sampling quantitation of tared media after analysis depends on the long term stability of the media. The gradual loss of weight in PVC filters was observed over time in both the laboratory setting and in a survey of returned field blanks. Over an 84 day period, laboratory blanks were weighed daily and lost 0.026 ±0.008 mg (n = 15) by day 42. In a separate study of all returned field blanks between January, 1, 2010 and October 21, 2013, filters returned to the lab after 35 days in the field also lost 0.015 ± 0.010 mg (n = 11,475). Resolution: With both laboratory and field studies indicating a slow loss of weight in un-used PVC filters, the possibility of passive off-gassing of the PVC material in the filter matrix was investigated. A vacuum desiccation study of laboratory media blanks was performed similar in function to the recommended procedure in OSHA PV2121. Results: After the vacuum desiccation treatment (60°C, 48 hours, -0. 05 MPa), tared PVC filters immediately demonstrated a decline in weight of 0.044 ± 0.028 mg (n=10), and did not regain this weight during the following 42 days of monitoring. Post-treatment analytical accuracy (Standard Deviation*2 of 60 repeated tare weights of the same filter) and coefficient of variance (Standard Deviation*Mean Weight-1 of the same set of 60 repeated filter weights) comparisons between vacuum desiccated and control filters indicate an increase in media stability. The accuracy of 37-mm diameter PVC filters increased from +/- 0.010 mg to +/- 0.008 (95% confidence interval or k=2) and the coefficient of variance decreased from 0.00040 to 0.00030. Lessons Learned: The vacuum desiccation of PVC sampling media was an effective treatment that increased the reproducibility of initial tare weights in 37-mm diameter 5 µm pore width PVC filter media. SR-127-10 Effect of Particle Loading on the Performance of Thermal Desorption Tubes C. Chang, C. Lin, S. Huang, J. Lai, C. Chen, National Taiwan University, Taipei, Taiwan; C. Chang, J. Wu, Chang Jung Christian University, Tainan, Taiwan; J Objective: Thermal desorption tubes are commonly used to quantify trace amount of volatile organic compounds in the workplace. These tubes are reused after regeneration. The deposited particles might affect the performance of TDTs. So, this study aimed to characterize the effect of aerosol loading on the performance of TDTs, during both sorption and desorption processes. Methods: Carbopack X and Tenax TA were used as the sorbents and acetone as the attack agent. The sorbent in the regular package weighed 200 mg. The challenge acetone concentration was set 100 ppm. Flame ionization detector was used for both adsorption and desorption tests to quantify the mass of acetone. For aerosol loading experiment, a constant output atomizer was used to generate submicron aerosol particles. The size distribution was CMD 62.2 nm with GSD of 1.81 and the mass concentration was around 25 mg/m3. A scanning mobility particle sizer was employed to measure the aerosol concentrations and size distributions upstream and downstream of the sorbent. Challenge aerosol flow varied from 0.1 to 0.3 L/min, to study the flow dependency. A pressure transducer was used to monitor the pressure drop during adsorption and desorption. Results: The 50% breakthrough time of Carbopack X and Tenax TA was 475 s and 235 s, respectively. The collected acetone mass by Carbopack X and Tenax TA was 0.376 and 0.186 mg, respectively. Aerosol penetration of the most penetrating size through 200 mg Carbopack X increased from 9 to 15%, as the aerosol flow increased from 0.1 to 0.3 L/min, indicating that test aerosols entered deeply into the sorbent. The sorption capacity of sorbents could only be reduced by the loading of liquid aerosols. For solid particle loading, the slope of the breakthrough curves became less sharp, meaning shorter 10% breakthrough time and longer 90% breakthrough time. It is inferred that deposited particles acted as a barrier to slow down the organic vapor either going in or coming out the micro-channels of the sorbents. interest. Thus, it is essential that the concentration of the gas or vapor be known prior to protected entry into that environment. Resolution: For many toxic vapors, the “worst-case” equilibrium concentration above a spill of the liquid at a given temperature can be readily calculated from the Antoine vapor-pressure equation - with three coefficients - or, with somewhat greater accuracy, using an equation with five coefficients. Thus, for example, the maximum volumetric concentration of vapor above a spill at “room temperature” can be easily obtained as the ratio of the vapor pressure divided by atmospheric pressure. Then, the type of respirator to protect against that calculation can be determined. Also, the ratio of the maximum equilibrium concentration divided by the OSHA Permissible Exposure Limit could be considered to be a Toxicity-Hazard Index, and this Index would be numerically equal to the required Protection Factor. Results: However, with novel or complex compounds, the coefficients for a vapor-pressure-versus-temperature equation may not be available. If one set of vapor pressure and temperature values is known, an equation can be derived through use of the “infinite point”, at about 1,625°C and 55,500 psia [about 2.9x106 mmHg]. Lessons Learned: The purpose of this paper is to show how Toxicity-Hazard Indexes can be obtained and how the “infinite point” can be used to estimate room-temperature concentrations of toxic vapors. SR-127-12 Improvement of Selectivity of the Method for N-Nitrosamine Determination by GC-NPD in Workplace Air M. Huard, S. Aubin, L René, L. Locas, S. Paradis, IRSST, Montreal, QC, Canada Objective: The goal of this study was to improve the analytical method for the determination of N-nitrosamines in air by gas chromatography with nitrogen phosphorus detection (GCNPD). The need was to overcome the problems associated with chromatographic interferences present for field samples. This method helps in evaluating the presence of some carcinogenic N-nitrosamines in the rubber industry. CS-127-11 Toxicity-Hazard Index and the “Critical Point” R. Prugh, Chilworth Technology, Inc., Princeton, NJ Methods: For nitrosamine determination, the method used was a sampler adapted by the IRSST and developed by the Institut National de Recherche et de Sécurité (INRS) of France. It consists of a sampling train containing 2 tubes in series. The first tube is a guard to trap amines. The second tube, which contained Florisil®, traps the nitrosamines and only this part is analyzed. The Florisil® is then transferred to a vial, and a liquid-solid extraction is performed with 2 mL of acetone:dichloromethane (98:2) containing an internal standard. The extract is then analyzed by GC-NPD using internal calibration to quantify 8 nitrosamines. Each extract is analyzed twice on two types of configurations simultaneously on the same GC-NPD. A multimode inlet (MMI) with temperature programming is used with a high polarity column for the front NPD detector of the GC. A split/splitless inlet in splitless mode is used with a middle polarity column for the back NPD detector of the GC. Situation/Problem: Recently, the Occupational Safety and Health Administration published Assigned Protection Factors for several types of breathing-protection devices, as part of the OSHA standard in 29 CFR 1910.134(d)(3)(i)(A). Proper use of such devices would allow a person to enter an environment that was at the Maximum Use Concentration of the toxic gas or vapor of Results: A complete validation was carried out and an LOQ of 0.040 µg per sample was obtained for all 8 nitrosamines, for each column, which corresponds to a concentration in air of 0.06 µg/m³ assuming a sampled volume of 720 L. Some compounds sensitive to thermal degradation can produce undesirable interference if you put them in a hot inlet. Injecting the sample into a cool inlet Conclusions: Liquid aerosols were more poisonous than solid ones because they might form films covering more activated site of sorbents. Aerosol loading deteriorated the sorbent’s performance. The reduction in breakthrough time increased with increasing loaded mass. The glass-wool filter installed upstream of the sorbents would help to protect against aerosol contamination, especially for liquid aerosols. www.AIHce2015.org 67 with the MMI reduced the number of peaks present for some samples and therefore reduced the possibility of interference. Injecting the sample into two different columns (with two different stationary phases) reduced the possibility of false positives, since the probability is really low for an interference to have the same retention time on the two columns. Conclusions: The method for nitrosamine analysis was therefore improved. The possibility of giving false positives was greatly reduced. Some real sample results will be discussed to demonstrate this conclusion. PO128 Advances in Laboratory Sampling and Analysis Thursday, June 4, 2015, 9:00 AM - 12:20 PM SR-128-01 Respirable Crystalline Silica Wipe Study D. Johansen, B. Albrecht, OSHA, Sandy, UT Objective: In the analysis of respirable crystalline silica (RCS) it is important to ensure all analyte material is being effectively recovered. A common practice to transfer all RCS material from the sample cassette is to use the sample media to remove excess dust by wiping. This practice was evaluated to determine its effectiveness. Methods: Forty-nine field samples were prepared following OSHA ID-142 and wiped. The samples were then re-wiped in order to determine if any RCS remained on the sample after preparation. Results: The analysis of the samples determined quartz loadings on the filters ranged from 15 to over 900 μg. Effectiveness of the wiping procedure was addressed by comparing the results of the original samples to the second wipes. Conclusions: Current sample cassette wiping practices are adequate at the proposed and established target concentrations for RCS. SR-128-02 Possible Replacements for DM450 Filters in FTIR Analysis of Silica in Coal Mine Dust D. Farcas, T. Lee, W. Chisholm, J. Soo, M. Harper, NIOSH, Morgantown, WV Objective: To find a replacement filter for the vinyl/acrylic copolymer filter (DM-450) that is currently used in US standard methods (MSHA) P-7 method and (NIOSH) Manual of Analytical Methods (NMAM) 7603 but which is no longer commercially available. Methods: Nylon (47 mm, 0.45 µm pore size, HNWP04700, Millipore), polypropylene (PP, 47 mm, 0.45µm pore size, PP04547100, Sterlitech) and polyvinyl chloride (PVC, 47 mm, 5µm pore size, FPVC547, Zefon) filters were considered because the filters have high IR transmittance in the spectral region 6001000 cm-1. Calibration curves using these filters were prepared according to the NMAM 7603 by pipet deposition of a suspension of standard reference material, respirable α-quartz (1878a), in isopropyl alcohol. Absorbance spectra of the quartz samples on the various filters were recorded and analyzed by the NMAM 68 AIHce 2015 | May 30 – June 4 | #AIHce 7603 and MSHA P-7 methods. Limits of detection (LOD) and limits of quantification (LOQ) were determined from multiple measurements of blank filters. Coefficients of variation (CV) were determined from IR measurements of known masses (3 - 10 µg) of quartz for each filter. The filters were also tested to determine quartz masses in ashed coal dust samples by both methods. Pore size for each type of filter was determined by the bubble point test. Breakthrough of quartz particles for each filter was also investigated. Results: LODs and LOQs from nylon filters determined according to MSHA P-7 were larger than those of PP and PVC. The values determined from the same spectra according to the NIOSH method were similar. The CV of the known masses of quartz samples were in the range of 1-18%. The nylon filter did not provide even particle deposition on filter possibly due to pressure drop across the filters when two different filters were superimposed during the redeposition procedure. A regression analysis of quartz masses determined by NIOSH and MSHA showed a relationship close to unity. Pore size measurements yielded values in close agreement with the manufacturers’ advertised pore sizes. No breakthrough of the quartz particles through any of the filters was observed. Conclusions: The DM-450 filter specified by NIOSH and MSHA for quartz measurement in coal dust by FTIR can be replaced with PP and PVC filters without other modifications of their methods. The nylon filter is not as suitable due to uneven particle deposition. SR-128-03 Interference Removal in Analysis of Respirable Crystalline Silica by Microwave Digestion B. Albrecht, D. Johansen, OSHA, Sandy, UT Objective: Kaolinite, a very commonly occurring mineral, interferes with the analysis of respirable crystalline silica (RCS) because some of its analytical diffraction lines overlap with those of quartz and cristobalite. A new closed vessel microwave technique to acid wash samples was developed to quickly digest the kaolinite while leaving polymorphs of RCS intact so they can be re-deposited for interference free analysis. This technique was tested to quantify its effectiveness. Methods: Laboratory created samples containing target levels of RCS (40 μg of quartz and 40 μg of cristobalite) were spiked with maximum expected levels of interfering solids (2000 μg of kaolinite) to test the ability of a new closed vessel microwave acid digestion procedure to remove unwanted interferences and leave the RCS polymorphs of interest intact. Samples were analyzed by X-ray diffraction (XRD) both before and after the acid digestion. Results: The microwave acid wash procedure enables the collection of much cleaner peak scans on useful analytical angles and recoveries suggest that RCS lost in the process is minimal. This is apparent in both the visual appearance of the peak scans and in the analytical recoveries obtained. Preacid wash recoveries for quartz on its analytical angles were primary through quaternary were 58.7, 39.7, 50.6, and 372 μg respectively. Post-acid wash results were much closer to theoretical 44.8, 42.5, 41.2, and 38.5 μg. Cristobalite data was similar: 52.4, 636.4, and 54.0 μg pre-wash and 38.2, 43.5, and 37.6 μg post-wash. Conclusions: In some cases where interfering solid material makes the quantification of RCS difficult, improved results can quickly be obtained following a closed vessel microwave acid digestion procedure to remove unwanted solid material. SR-128-04 Internal Cassette Deposits in Respirable Samplers J. Soo, T. Lee, M. Kashon, M. Harper, NIOSH, Morgantown, WV Objective: To compare quartz mass in coal dust deposited on internal surface of polystyrene and polypropylene (conductive) cassettes types for respirable size-selective samplers. Methods: Pittsburgh seam coal dust was aerosolized in a calm air chamber by using a fluidized bed aerosol generator without neutralization under the assumption that the procedure is similar to field sampling conditions. Four different respirable size-selective samplers (10-mm Dorr-Oliver nylon, SKC Aluminum, BGI4L, and GK2.69 cyclones) were employed with two different cassette types (polystyrene and polypropylene (conductive) cassettes). Two different levels of dust mass were tested with at least three repetitions for each level. The mass of coal dust was measured gravimetrically and quartz mass was determined by Fourier transform infrared spectroscopy according to NIOSH Manual of Analytical Method 7603. Coal dust deposited inside of the cassettes was wiped out with two or three successive PVC filters wetted with isopropyl alcohol until the surface of the cassettes was clean to visual inspection. Results: A total of 216 samples were collected. The mass fractions of the total quartz sample on the internal cassette surface are significantly different between polystyrene and polypropylene (conductive) cassettes for all cyclones (p<0.05). However, no consistent relationship between quartz mass on cassette internal surface and coal dust filter mass was observed. The BGI4L cyclone showed larger (but not significantly) and the GK2.69 cyclone showed significantly lower (p<0.05) internal surface deposit quartz mass fraction for polystyrene cassettes compared to other cyclones. Conclusions: This study confirms previous observations that the quartz residue on interior surface of polystyrene cassettes attached to cyclone pre-selectors can be a substantial part of the sample, and therefore need to be included in any analysis for accurate exposure assessment. On the other hand, the finding of the present study supports that the dust adhesion on interior wall of polypropylene (conductive) cassettes used with sizeselective cyclones are negligible and that it is only necessary to analyze the filter catch. CS-128-05 Dispelling the Myths: Understanding the Complexity of Isocyanate Sampling in the Workplace D. LaGarde, OSHA, Sandy, UT Situation/Problem: Workplace exposure to isocyanates is wellstudied with established sampling and analytical protocols. Occupational sampling for isocyanates began over 50 years ago, yet research is ongoing and workers exposed to isocyanates continue to exhibit illness, why? Persons working in the same occupational environment exhibit different responses to isocyanate exposure, ranging from no response to potentially fatal hyper-sensitization. Exposures can be acute or chronic, where isocyanate concentrations can be very low for many hours or at a high concentration for just a few seconds. Routes of exposure may be inhalation and dermal. In addition, the measurement of isocyanates in an occupational environment is challenging to sample and analyze. Isocyanates can exist in the air as a vapor or as an aerosol with a wide range of particle sizes. Isocyanates are highly reactive and are comprised of numerous chemical species, monomers, pre-polymers, and polymers. Analytical standards are not available for many species. A number of “problems” are associated with current sampling methodology used for isocyanates including the mobility on a dry derivative filter, stability of the derivative prior to sampling, and under derivatization of large particles. Published research is often limited in scope; conclusions can be widespread, broadly interpreted, become myth, and then fact. Resolution: Dispel myths that have evolved surrounding isocyanate exposure, sample collection, and analysis through research, education, and collaboration. Scientifically evaluate proposed improvements and empirical observations regarding occupational isocyanate exposure assessment and eliminate the myths that can lead to erroneous results and exposure conclusions. Results: Comparisons performed to evaluate common issues associated with isocyanate sampling reveal the complexity of isocyanate sampling and analysis. The most accurate sampling and assessment for worker exposure comes from a thoughtful evaluation of the environment, isocyanates and co-reactants present, potential formation or breakdown products, and potential interferences using sampling protocols in established validated sampling and analytical methods. Lessons Learned: Evaluate myths through the scientific method. Cause and effect, or empirical evidence, is not equal to scientific testing. Publications, advertisements, new sampler designs and processes do not supplant the tests completed to validate scientific methods used for chemical exposure quantification. SR-128-06 Measurement of the Potential Exposure to Isocyanates Monomers and Oligomers during Spray Painting J. Brown, E. Barrey, O. Shimelis, M. Halpenny, M. Ye, SigmaAldrich / Supelco, Bellefonte, PA Objective: Monitoring of isocyanates in the workplace environment is important as these reactive compounds are capable of inducing respiratory disorders like “occupational asthma”. Airborne monomer and oligomer isocyanates can occur together in product formulations, such as automotive clear coat finishes. Analyzing the monomer and oligomer isocyanates in a single method provides the most efficient solution for determining the concentrations present during potential exposures. Methods: In this field study, the sampling device used to collect the air samples incorporated a Dibutylamine impregnated media. The Dibutylamine derivatized the reactive isocyanates to form stable urea derivatives. This “dry” air sampler allowed sensitive and reliable detection of multiple isocyanates including monomers and oligomers. Low detection limits were obtained by using LC-MS-MS. Quantitative analysis of the isocyanates was possible by using the available deuterated internal standards. Results: Both monomers and polymers of Isophorone diisocyanate (IPDI), and 1,6-Hexamethylene diisocyanate www.AIHce2015.org 69 (HDI) were detected during this study. The quantitative results indicated that HDI-Isocyanurate and IPDI-Isocyanurate were present at the highest concentration inside the spraybooth during the spraying process. HDI polymeric species detected included; HDI-Isocyanurate, HDI-Uretidone and HDI-Biuret. The IPDI polymeric form IPDI-Isocyanurate was also present at higher concentrations than the monomer form. Conclusions: The use of the dry sampling device allowed quantitative analysis and identification of the individual isocyanate species. The study indicated that isocyanate oligomers were present at much higher concentrations than the monomers during the spray painting process. CS-128-07 Isocyanate Field Extraction Procedure J. Glowacki, University of Wisconsin – Madison, Madison, WI Situation/Problem: Successful isocyanate sample collection depends upon sample derivatization at the time of collection. Derivatization occurs when the isocyanates come into physical contact with the derivatizing agent on the filter of the sampling media to form a stable by-product. 1-(2-pyridyl)piperazine is the derivatizing agent on the 37mm glass fiber filters referenced in OSHA 42 and 47 for the analysis of Diisocyanates. Isocyanate vapors and very fine aerosols are captured well using this method, as they react more completely on the filter to form the stable derivative. Larger aerosol droplets and high particulate air samples are problematic as their size impairs reaction with the derivatizing agent. Resolution: To minimize the loss of unreacted aerosol or particulate isocyanate, the OSHA NEP now requires field extraction of isocyanate sample filters. The field extraction process will be clearly described, including detailed photographs. Rationale for recommended tools and PPE (personal protective equipment) will also be explained. Results: Aerosol isocyanate samples that are field extracted will yield three or more times more analyte over non field extracted samples. Data showing the importance of isocyanate sample field extraction will be presented. Lessons Learned: Collection recoveries can be significantly improved by field extracting aerosol and high particulate isocyanate samples. What can go wrong with the field extraction process? Real world samples present varied difficulties and challenges. Proper planning and understanding of the field extraction process can minimize these issues. SR-128-08 Development and Validation of a New Personal Sampler for Monitoring Inorganic Acid Mist and Gases C. Chien, L. Shou, C. Wu, University of Florida, Gainesville, FL; A. Theodore, Fracture, Gainesville, FL; Y. Hsu, Wood Buffalo Environmental Association, Fort McMurray, AB, Canada; B. Birky, Florida Industrial and Phosphate Research Institute, Bartow, FL Objective: To develop a personal sampler to overcome the inaccurate measurement of inorganic acid mist and gases using NIOSH Method 7903. Methods: To design a new sampler that consists of 3 components in an ergonomic smart phone shape to collect aerosol and gases separately: a parallel impactor for classifying acid mist following ACGIH/ISO/CEN defined human respirable/thoracic fraction, a 70 AIHce 2015 | May 30 – June 4 | #AIHce porous membrane denuder for adsorbing acidic gases, and a filter pack to collect small particles penetrating the impactor and the denuder. Results: Test results showed that the personal sampler maintained particle collection efficiency greater than 99% for 4-hour sampling time as well as 4-hour gas collection efficiency over 95% for SO2, HCl, and HNO3 with a feed concentration of 10, 10, and 4 ppm (two times of OSHA standards), respectively. Additionally, the sampler successfully separated the collection of SO2 from that of H2SO4, thus minimizing the interference when SO2 and H2SO4 coexist. Testing was also carried out according to OSHA’s Validation Guidelines for Air Sampling Methods Utilizing Chromatographic Analysis. Under both low (22%) and high (64%) relative humidities, the sampler’s analyte recovery was above 99%. While particle growth due to the hygroscopicity of sulfuric acid shifts particle collection toward the impactor at high RH, the mass concentration of sulfuric acid was conserved for the combined impactor and filter collection. The storage stability of the H2SO4 samples taken every 5 days showed that, for ambient storage, the overall standard error of the samples collected in 25 days was 5.76% with 95% confidence limit of 11.28%, while for refrigerated samples, the standard error was 4.96% and 95% confidence limit was 9.65%, indicating both storage methods impose no significant effect on the samples. Conclusions: This validated new personal sampler will provide accurate and reliable monitoring of inorganic acid mist in occupational setting over conventional methods which suffer from interferences encountered when using current NIOSH method. SR-128-09 Analytical Method Validation for the Use of Microfiber Cloth Swatches in Surface Wipe Sampling M. Malinsky, B. Mader, 3M, St. Paul, MN Objective: Wipe sampling of workplace surfaces is a valuable tool for dermal exposure assessments. The purpose of this investigation was to evaluate the use of microfiber cloth swatches, pre-wetted with solvent, as surface wipe media for acrylates. The microfiber cloth, which is designed for cleaning purposes, is physically more durable than other conventional wipe media. Methods: Sampled wipes were solvent extracted and then analyzed using gas chromatography/mass spectrometry (GC/ MS). The following quality control samples were prepared to evaluate the accuracy and precision of the analytical methodology: wipe spikes (extraction efficiency), surface spikes (sampling efficiency), blanks (media interferences), and holding time spikes (analyte stability on the wipe media). Results: Wipe spikes produced recoveries within 100±25% demonstrating that the target analytes could be quantitatively extracted from the microfiber media. Wipes sampled from spiked aluminum foil demonstrated greater variability with recoveries between 100±50%. The acrylates tested for this study were stable on the wipe media for a minimum of fourteen days. Conclusions: Microfiber wipes are a suitable media for surface wipe sampling for acrylates and potentially other classes of chemicals. The study demonstrated that quantitative results can be obtained for the analysis of the wipe samples. However the similarity of the transfer efficiency of the wipe sampling to actual dermal uptake could not be quantified. SR-128-10 Sampling of Semi-Volatile Compounds - A New Sampling System for Simultaneous Sampling of Droplets and Vapors D. Breuer, C. Friedrich, IFA- Institute for Occupational Safety and Health of the Germany Accident Insurance, Sankt Augustin, Germany; G. Dragan, 2Joint Mass Spectrometry Centre, Cooperation Group “Comprehensive Molecular Analytics”, Helmholtz Zentrum München, Neuherberg, Germany Objective: The European Standard EN 13936 defines the basic requirements for semi-volatile compounds that can occur as vapor and particle at the same time at workplaces. Vapor and particles shall not be sampled separately and particles have to be sampled as inhalable fraction. Sampler containing filter and pumped sorbent tube in series are one of the suitable sampling trains. IFA has developed a sampling head (GGP-Mini) which is designed to sample the inhalable fraction at flow rates that can be easily combined with commercially available adsorption tubes. Particles will be sampled on a 13 mm filter. A basic set up with glass fiber filter and charcoal tube was tested. Methods: Laboratory tests were performed with compounds in a boiling point range from 188 °C (propylene glycol) to 318 °C (n-octadecane). The substances were spiked directly on the filter and then air sucked through (0.33 l/min, 2 h). For further evaluation droplet/vapor mixtures of n-hexadecane, n-octadecane and diethylene glycol with droplet sizes between 1 µm and 4 µm were generated in a flow-tube reactor. All samples were analysed with GC-FID. In the flow-tube the aerosols were analysed online with a particle counter (particle number and concentration) and a flame ionisation detector (total concentration). Results: Mainly substances with boiling points above 230°C up to 300°C were found on both substrates, filter and charcoal tube. For n-hexadecane with a droplet size of 2 µm the online measurements gives a result of 13 mg/m3 for the droplets and 24.2 mg/m3 for the overall concentration. The GGP-Mini showed different results for droplets (8.5 mg/m3) and vapor (16.7 mg/ m3), the result for the sum of vapor and droplets (25.2 mg/m3) was in good agreement to the online measurement. Parallel sampling with charcoal tubes without upstream particle sampling showed differences arise as soon as droplets are the dominant component. Conclusions: All tests have shown that the distribution between vapor and droplets is not constant, and that only the sum of vapor and droplets constitutes a reproducible result. The distribution is dependent upon numerous influencing factors including the concentration of the aerosol, the temperature, and, particularly in the case of polar substances, the atmospheric humidity. PS401 Poster Session 1 Author Attend Time: Monday 10:00 a.m. - 12:00 p.m. *All posters are available for viewing in the expo hall from Monday 9:00 a.m. through Wednesday 1:00 p.m. SR-401-01 Size Distribution and Estimated Respiratory Deposition of Total Chromium, Hexavalent Chromium, Manganese and Nickel in Gas Metal Arc Welding Fume Aerosols L. Cena, M. Keane, A. Cumpston, B. Chen, NIOSH, Morgantown, WV Objective: Assess the particle size distribution from 10 nm to >30 μm of total Cr, Cr(VI), Mn and Ni in welding fumes generated by GMAW of mild and stainless steel, establish the fraction of Cr(VI) in total Cr for each particle size range, and provide an understanding of the regional deposition of these metals in the human respiratory system. Methods: Welding fumes were generated with a robotic welder operating in axial spray mode. Samples were collected using a nano multiple orifice uniform deposition impactor with polyvinyl chloride filters on each stage. The filters were analyzed by inductively coupled plasma mass spectrometry and ion chromatography. Limits of detection and quantitation were experimentally calculated and percent recoveries were measured from metal spikes. The fraction of Cr(VI) in total Cr was assessed by calculating the ratio of Cr(VI) to total Cr mass for each particle size range. Regional deposition of each metal was estimated according to respiratory-deposition models. Results: The weight percent (wt%; ± standard deviation) of Mn in mild steel fumes was 9.2% (±6.8%). For stainless steel fumes, the wt%s were 8.4% (±5.4%) for total Cr, 12.2% (±6.5%) for Mn, 2.1% (±1.5%) for Ni and 0.5% (±0.4%) for Cr(VI). All metals presented a submicron fraction between 0.04 and 0.6 µm. Total Cr and Ni presented an additional fraction <0.03 µm. On average 6% of the Cr was found in the Cr(VI) valence state. There was no statistical difference between the smallest and largest mean Cr(VI) to total Cr mass ratio (p-value=0.19), hence particle size did not affect the contribution of Cr(VI) relative to total Cr. The predicted total respiratory deposition for the metal particles was ~20%. The sites of principal deposition were the head airways (7-10%) and the alveolar region (8-9%). Estimated Cr(VI) deposition was highest in the alveolar region (8.8%). Conclusions: Total fume mass obtained from gravimetric analysis of the impactor stages presented a tri-modal distribution with a substantial contribution of particles in the 0.006–0.06 μm range. Chemical analyses of the individual metals did not reveal as prominent mass in this smaller size range. The discrepancy may be due to the lesser reliability of gravimetric analysis compared to chemical analysis. The wt% of metals in the fumes differed from that of the consumables. Future research should focus on other welding processes such as SMAW, FCAW and gas tungsten arc welding. www.AIHce2015.org 71 SR-401-02 Developing and Validating of a New Filter Holder for Direct On-filter Analysis of Free Silica Samples by Using the XRD Method C. Chen, P. Tsai, National Cheng Kung University, Tainan City, Taiwan; C. Lai, Chung Shan Medical University, Taichung City, TaiwanObjective: This study was set out to develop a new filter holder for direct on-filter (DOF) analysis of free silica samples using the XRD method. Methods: The target uniformity of the deposition of particles on a filter (=0.78) was determined according to NIOSH-7500 method, and was used as a guideline for developing a new filter holder suitable for both the nylon cyclone and 25-mm aluminum cyclone. Results: A new filter holder with an120° outlet angle and a 50mm cowl length was developed based on repetitive laboratory tests. Field validations were conducted on three selected workplaces in a foundry plant. For any given workplace, two nylon cyclones respectively mounted with a traditional and a newly developed filter holder (denoted as T-Nylon and N-Nylon, respectively) , and two 25-mm aluminum cyclone respectively mounted with a traditional and the newly developed filter holder (denoted as T-AL and N-AL, respectively) were used to collected respirable dust samples. Results show that no significant difference was found among the respirable dust concentrations for samples collected from the T-Nylone, N-Nylone, T-AL and N-AL suggesting that all testing cyclones shared a very similar performance as a pre-selector for collecting the resparable dust. The quartz concentrations for samples collected from T-Nylone and T-AL analyzed using the DOF XRD method were found to be higher than that of the NIOSH-7500. On the other hand, quartz concentrations for samples collected from N-Nylone and N-AL, while analyzed using the DOF XRD method, were found with no significant difference from those analyzed using the NIOSH-7500 method. Conclusions: It is concluded that the developed filter holder is suitable for collecting and analyzing respirable free silica samples using the DOF XRD method, which will be beneficial for industries on reducing both cost and manpower on free silica analysis as in comparison with the use of the NIOSH-7500 method. CS-401-03 Controlling Open Pit Mine Ground Worker Respirable Silica Exposure: A Case Study D. Weber, Liberty Mutual Insurance Company, Glastonbury, CT Situation/Problem: Open pit mining and crushing of stone provides needed material for the construction industry. A ground worker commonly works around crushing and conveying equipment. The ground worker cleans up material spills from conveyors, picks stone from catwalks and monitors feed piles, material transport and tunnel operations. During these activities, excessively high airborne exposure to respirable dust containing crystalline silica (quartz) was present. Excessive respirable quartz exposure has been linked to lung fibrosis and silicosis. The ground worker’s exposure to respirable dust containing quartz was over 2 times the MSHA PEL. The worker wore a NIOSH approved N95 filtering facepiece respirator. Industrial hygiene recommendations following the hierarchy of controls 72 AIHce 2015 | May 30 – June 4 | #AIHce were submitted with emphasis on the need for enhanced dust suppression at crushing and transfer points. Resolution: Management actions included the installation of cameras for observing the tunnel, the top feeds of the secondary and recrush/tertiary crushers, permitting the worker to spend more time in the control trailer. Cleaning was eliminated in the vicinity of the primary ground area while the primary crusher is operating. Conveyor skirting was improved to reduce spills that required clean up. Improvements in water mist dust suppression were implemented at the secondary and tertiary crushers and at belt transfer points. The employee wears taskbased appropriate NIOSH approved respiratory protection in the form of N95 filtering face piece respirators as needed and is included in an effective Respiratory Protection Program. Results: The enhanced controls resulted in the ground worker’s respirable dust exposure being reduced to below the MSHA PEL. Lessons Learned: A combined effort of modified work procedures, remote process equipment monitoring in conjunction with well designed, managed and maintained water mist dust suppression can provide effective means of reducing crushing plant ground worker respirable quartz exposure. SR-401-04 Exposure Level of Airborne Fungi in Pig Buildings of Korea K. Kim, Catholic University of Pusan, Busan, Republic of Korea; H. Ko, Korean National Open University, Seoul, Republic of Korea; C. Kim, Yonsei University, Seoul, Republic of Korea Objective: This study was performed to assess exposure level of airborne fungi in a pig building of Korea according to pig housing type. Methods: The pig building surveyed in this study was enclosed type operated with mechanical ventilation system and manure removal by slurry pit. The sampling sites in pig building were gestation/ farrowing room, nursery room and growing/fattening room. It was visited every month in 2012 and the mean data obtained for three consecutive months were considered as a seasonal level: spring (Mar. to May), summer (Jun. to Aug.), autumn (Sep. to Nov.) and winter (Dec. to Feb.). Samples were collected at 1.5 m above the middle floor in pig housing room. A six-stage viable particulate cascade impactor was used to collect airborne fungi in the pig building. The plate media for culturing airborne fungi was a Malt Extract Agar (MEA). The statistical analysis was applied to verify the significance of concentration difference in airborne fungi among pig housing rooms and seasons. Results: Mean concentration of airborne fungi in the housing room of gestation/farrowing pigs were 3,004(±1,208)cfu m-3 in spring, 2,536(±1,313)cfu m-3 in summer, 1,568(±836)cfu m-3 in autumn, and 2,324(±1,315)cfu m-3 in winter, respectively. Mean concentrations of airborne fungi in the housing room of nursery pigs were 4,780(±2,008)cfu m-3 in spring, 4,117(±1,836)cfu m-3 in summer, 1,796(±922)cfu m-3 in autumn, and 2,650(±1,235)cfu m-3 in winter, respectively. Mean concentrations of airborne fungi in the housing room of growing/fattening pigs were 11,686(±3,864) cfu m-3 in spring, 16,173(±3,805)cfu m-3 in summer, 1,994(±736) cfu m-3 in autumn, and 7,983(±925)cfu m-3 in winter, respectively. Overall airborne fungi which have particle size over 2.1㎛ (stage 1~stage 4) accounted for approximately 70~80% compared to total airborne fungi regardless of pig housing type. The predominant airborne fungi in pig building were Penicillium sp. (15~25%), Cladosporium sp. (10~15%) and Aspergillus sp. (5~10%). Conclusions: Exposure level of airborne fungi in terms of pig housing type were highest in growing/fattening housing room followed by nursery housing room and gestation/farrowing housing room (p<0.05). The pig building showed the highest levels of airborne fungi in summer followed by spring, winter and autumn. There was, however, no significant difference among seasonal exposure levels (p>0.05). SR-401-05 Filtration of Combustion Aerosols by N95, R95 and P95 Filtering Facepiece Respirator Filters S. Gao, S. Grinshpun, J. Kim, M. Yermakov, Y. Elmashae, T. Reponen, University of Cincinnati, Cincinnati, OH; X. He, West Virginia University, Morgantown, WV; Objective: To evaluate the performance of filter samples from an N95 filtering facepiece respirator (FFR) against combustion aerosol particles and conventional NaCl aerosol challenge. While interpreting the data acquired for N95 filters, a secondary goal was established: to conduct the same evaluation for R95 and P95 filters. Methods: First, 38.5 cm2 filter samples were cut from an N95 FFR and mounted on a holder. The filters were challenged with three combustion aerosols (generated by burning wood, paper and plastic) and with NaCl aerosol. The sample surface area and flow rate were chosen to match the average face velocity through the entire respirator operating at inhalation flow rates of 15, 30, 55 and 85 L/min. The size-resolved particle concentrations upstream (Cup_dp) and downstream (Cdown_dp) were measured with a Nanocheck (Grimm Technologies, Germany). The sizeresolved particle penetration (Pdp) was determined as (Cdown_dp/ Cup_dp)×100%. Second, the penetration was similarly determined for R95 and P95 FFRs. Results: For the N95 filter, the combustion particles featured significantly higher penetrations than NaCl (p<0.05). Increasing the inhalation flow resulted in an increase in Pdp for all challenge aerosols. The particle size, inhalation flow rate and challenge aerosol type were significant factors (p<0.05) affecting the penetration of combustion particles. The most penetrating particle size (MPPS) ranged from 35 to 105 nm and depended on the aerosol type. In contrast to N95, the data collected with R95 and P95 filters provided no evidence of a greater penetration of combustion particles compared to that of NaCl. This difference suggests that “oily” particles generated during combustion could reduce the particle collection efficiency of N-type filters, which are not designed to against “oily” materials, while no similar negative effect occurs for the R- and P-types that are capable to operate in “oily” environments. Other mechanisms that can explain the finding of this study include chemical reactions between the combustion particles and the fibers, as well as electrostatic effects. Conclusions: The N95 filter performance obtained with NaCl particles may not accurately predict (rather overestimate) the protection level offered by the same filters against combustion particles. R95 and P95 FFRs could offer better protection against combustion particles than N95 FFR. CS-401-06 Airborne Lead and Arsenic Exposures Arising during Metal Bridge Deck Demolition: A Case Study D. Weber, Liberty Mutual Insurance Company, Glastonbury, CT Situation/Problem: The renovation of a bridge with a metal deck required the removal of the metal deck from structural frame members in sections. Torch cutting was employed to cut the deck into sections. During this process, excessively high airborne concentrations of lead were present outside of the torch operator’s respiratory protection. One individual’s air sample contained excessive airborne arsenic. Excessive lead exposure has been linked to neurological, gastrointestinal and heme synthesis affects. Excessive arsenic exposure has been linked to gastrointestinal effects and cancer. Sampling revealed exposures that could represent acute as well as chronic health hazards. Torch cutting worker TWA exposures outside the PAPR’s were in excess of 30 times the lead PEL and slightly above the arsenic PEL. Air samples collected inside one workers PAPR revealed no quantifiable lead exposure for the worker wearing the PAPR continuously. Another worker removed his PAPR on the bridge deck to consume beverages for a short period of time resulting in his sample containing 2.6 ug/cu.m. of lead. Worker protection consisted of Tyvek suits, gloves and NIOSH approved PAPR’s equipped with and P100 filters. Beverage consumption and smoking were permitted on the bridge deck. Industrial hygiene recommendations following the hierarchy of controls were submitted with emphasis on the need for management to act expeditiously to implement lead and arsenic control programs. Resolution: Management actions included investigating other suitable means of bridge deck demolition, implementation of a comprehensive lead and arsenic control programs. Requiring all workers on the bridge deck to wear accepted PPE, the elimination of ingestion and smoking on the bridge deck. Management was investigating the acquisition of a sectional trailer for washing, showering and changing clothes. Results: These exposures were managed for the duration of the job as management continued to investigate other suitable means for metal bridge deck demolition for future jobs. Lessons Learned: Pre-construction planning for comprehensive management of metal fume exposures arising from bridge deck demolition is critical. If worn properly, PAPR’s provide an effective means of airborne fume exposure control. CS-401-07 Performance of Ergonomic Evaluation of Identified Plant Site Job Positions for Development of Specific Physical Demands Assessment and Revised Job Description Documentation J. Koehn, L. McKelvey, W. Young, JK, Inc., Houston, TX Situation/Problem: Professional and technical consulting services were requested by an industrial plant manufacturing Client to perform ergonomic evaluations for outlined job positions with specific physical demands including work task assessments at a facility located in Houston, Texas during 2013–2014. Review of prepared position descriptions and work activities was completed for a defined consulting scope of work to update documented and defined criteria subsequently used for job placement by nursing personnel working through Human Resources. www.AIHce2015.org 73 Resolution: A project team was assembled for defined plant site assessment of prioritized job work tasks and to prepare necessary documentation. The consulting team members included a Certified Industrial Hygienist (CIH), field/plant knowledgeable Industrial Hygienists, and a Certified Professional Ergonomist (CPE). Observations of physical and strenuous job tasks, noted work positions, and specific manual activities for operations, maintenance, and support groups were gathered for ergonomic quantification of risk levels for the Client. Process included extensive recordkeeping in addition to professional and technical evaluation, personnel interviews, administration of job position surveys, and work task investigation and documentation. Results: Technical content of the outlined physical assessment categories related to health risk hazards and specific ergonomic work task evaluation was properly addressed through definition of two different conditions as “normal or representative” and also “worst case scenario”. Specific job positions were investigated including recordkeeping through digital photographs and videos for accurate assessment and quantification of required physical demands. Updated job description documents for use by plant site nursing personnel related to new employee hiring procedures and position placement were finalized. Lessons Learned: Industrial hygiene and plant operations knowledge was valuable for this project to facilitate plant site assessment and categorize risk levels for various job positions. Review of observed work task documentation provided specific quantification of noted repetitive activities with ergonomic risk assessment of required manual and strenuous components. This information was further employed by plant Human Resources personnel to outline elements of pre-employment physical assessment procedures for job position evaluations. SR-401-08 Field Study of High Flow Rate Respirable Size Selective Samplers for Silica Measurement T. Lee, M. Harper, M. Kashon, NIOSH, Morgantown, WV Objective: To determine the feasibility of utilizing the high flow rate samplers (CIP10-R, FSP10 and GK2.69) in measurements of respirable crystalline silica collected from various occupational environments by comparison with low flow rate samplers (10mm nylon cyclone and Higgins-Dewell type cyclone). Methods: Samples were collected in seven occupational sites in the US, including construction (masonry and demolition), silica sand production, metal mine and labor union training centers, and five stonemasonry sites in Ireland. Side-by-side personal sampling was conducted with 6 combinations of high and low flow rate samplers. When personal sampling was unavailable, a stationary Lippman-type sampling apparatus was utilized and placed near the working area. Gravimetric analysis was used to determine respirable dust mass concentration and X-ray diffraction analysis was used to determine quartz mass concentration. Results: Eleven sets of area samples and 268 pairs of personal samples were obtained. Due to large variation in field condition, the respirable dust mass and quartz mass concentrations ratios <0.3 and >3.0 between the high and low flow rate samplers were considered as outliers. The frequency of samples above the limit of detection of quartz (5µg) was significantly (p<0.05) higher when the CIP10-R and FSP10 samplers were used compared to low flow rate samplers while the GK2.69 cyclone did not show significant difference from low flow rate samplers. The same result was produced in the frequency of above limit of quantification (15 µg) between high and low flow rates samplers. 74 AIHce 2015 | May 30 – June 4 | #AIHce Some pairs of the samplers showed significant differences (p<0.05) in respirable dust mass concentration and quartz mass concentration but these differences disappeared when outliers were removed. Some pairs of the samplers showed a significant difference from a 1:1 relationship in accordance with linear regression analysis when outliers were removed. However, while the differences were significant, they are not large. Conclusions: The high flow rate samplers did not generally show significant differences in respirable dust mass and quartz mass concentration. The high flow rate samplers also provide more dust for subsequent sample analysis, allowing for better precision. However, higher flow-rate samplers may have other attributes that could influence the decision as to whether they should be used for personal sampling. SR-401-09 Measuring Workers’ Exposure to Metals in Smelter Materials Used as Fill and Assessing Potential Risk L. Beyer, M. Seeley, G. Greenberg, B. Beck, Gradient, Cambridge, MA;; S. Thakali, URS Corporation, Philadelphia, PA; F. Melnikov, Yale University, New Haven, CT Objective: Smelter material (brick, smelter residue, retort), has been used for road construction in the US. When workers handle these materials while repairing roads and bridges, metals could be transferred to hands and subsequently ingested, resulting in a potential health risk. We conducted a hand transfer study to simulate potential exposure. Our objectives were to measure the amount of metals workers might get on their hands as a result of contacting the smelter material used as fill, estimate intake by workers potentially contacting the materials, and assess risk. Methods: We evaluated exposure to metals from direct contact with smelter material following a study procedure based on peer-reviewed methodology. Smelter material was collected alongside roads and bridges and shipped to a laboratory where, according to a detailed protocol, volunteers handled the material in a manner simulating how workers would contact the material. The volunteers’ hands were then rinsed, and the rinsate was analyzed for lead, zinc, arsenic, and cadmium. Using the analytical results, as well as site-specific information regarding potential worker contact with smelter materials and standard US EPA risk assessment methodology, we calculated exposure from dermal contact and inadvertent ingestion of material on hands. Results: The maximum amount transferred to the hands for cadmium, lead, and zinc was 0.002, 0.035, and 0.98 mg, respectively. Zinc was detected most frequently and at the highest concentration, lead and cadmium were each detected in two samples, and arsenic was not detected. We calculated a hazard quotient (HQ) of 0.017 for cadmium (ingestion and dermal contact) and 0.0015 for zinc (ingestion only, as there is no dermal absorption). The total hazard index was 0.02. For lead, we estimated the daily intake of 1.96 μg for a 70-kg man, which would have no detectable impact on blood lead levels. None of the detected metals are considered carcinogens via ingestion, so handling smelter material would not be associated with excess cancer risk. Conclusions: Based on the study results and risk calculations, handling smelter material did not represent a significant source of exposure, and the potential health risks associated with workers handling smelter material did not exceed acceptable risk levels. Nonetheless, exposure could be decreased through use of appropriate protective gloves. CS-401-10 A Comparison of the Use of Differing Occupational Exposure Limits Using Real World Silica Exposure Measurements E. Reed, R. Newton, Liberty Mutual Insurance Company, Wheat Ridge, CO Situation/Problem: The application of occupational exposure limits for silica exposures has long drawn attention from legislators, lobbyists, field practitioners, worker’s rights advocates and industry leaders. A Notice of Proposed Rulemaking (NPRM) published by OSHA which suggests a reduced Permissible Exposure Limit for crystalline silica has heightened interest amongst many industry trade groups and associations. Resolution: This paper examines exposure data for respirable crystalline silica exposures from 185 field measurements collected at 33 different sites in 6 States, for 28 different similar exposure groups on 50 different dates over a seven year time span. This real-world exposure data was analyzed to develop a comparison of the % of the worker population that would be over-exposed when compared to four different occupational exposure limits for crystalline silica: 1) 29 CFR 1926.55 (OSHA Construction Standard), 2) 30 CFR part §56.5005 (MSHA Standard) / 29 CFR 1910.1000 Table Z-3 (OSHA General Industry Standard), 3) Newly Proposed OSHA PEL (Federal Register, September 12, 2013), and 4) the 2014 ACGIH TLV®. Results: Percentages of worker populations that would be over exposed are reported for 28 similar exposure groups (SEGs) as compared with the five referenced occupational exposure limits. Lessons Learned: The purpose of this paper is to provide insights on the application of differing occupational exposure limits using real world data. CS-401-11 Use of Direct Reading Aerosol Monitors to Evaluate Exposures to Respirable Dusts Containing Crystalline Silica M. Wiggins, Liberty Mutual Insurance, Lexington, SC Situation/Problem: Evaluating silica exposures can pose challenges due to limitations of the sampling method. Due to the high sample volume requirements, it is difficult to evaluate dust exposures that occur due to performing individual work tasks that create exposures. Direct reading aerosol monitors can be used to evaluate respirable dust exposures during specific work tasks, which can be useful for estimating silica exposures that occur due to specific work operations/tasks. Resolution: Direct reading aerosol monitors were used to evaluate respirable dust exposures, in conjunction with using NIOSH method 0600/7500. The direct reading aerosol monitor can help identify sources of exposure and can support recommendations concerning engineering controls and required respirator usage. Results: Direct reading monitors can be configured to collect personal breathing zone air samples. If the percentage of crystalline silica that is typically present in the dusts is known, dust exposures can be estimated during specific work tasks/ operations. exposures during individual tasks or specific operations. While the results may not directly correlate to sample results obtained using NIOSH method 0600/7500, the data obtained from the aerosol monitor can be used for identifying tasks /exposure sources that contribute to excessive exposures. Although the use of direct reading monitors is not a substitute for using established NIOSH sampling method, it can be a useful tool for evaluating exposures. Data obtained from use of direct reading aerosol monitors can be incorporated in to performance based exposure determinations. CS-401-12 Industrial Hygiene Turnaround Support Services W. Yip, National University of Singapore, Singapore Situation/Problem: In the petrochemical and refining industry, a turnaround is probably one of the most highly hazardous events that it has to deal with. A turnaround is an event whereby the entire plant is being brought offline so that most of its work such as inspection, repair, replacement and alteration can be carried out. These events are not only expensive and timeconsuming but it can also be very complex and labor intensive. With many competing factors, it is crucial that the industrial hygiene support towards such an event be well planned so that the health hazards are addressed. This case study serves to provide guidelines for developing plans and providing IH support for turnarounds. Resolution: Industrial hygiene (IH) provides guidelines for developing plans and IH support during turnarounds (TA). IH involvement starts from integration of IH elements in work plan during the planning phase prior to TA and ends after the post turnaround review. Below is a list of IH activities performed during the TA in chronological order: Pre TA: Integration of IH into TA planning cycles; Evaluation and identification of potential health hazards during turnaround; Determining control measures for managing the hazards; Identify health regulatory requirements; Assessment of IH monitoring needs and responsibilities; Develop IH Plan; and provide pre-TA support. During TA: Periodically conduct field checks/walkthroughs of TA areas; Use of verification tools to measure success in meeting occupational health standards; Follow up on IH emphasis areas; and Dedicate available resources to area where greater risk exists Results: By communicating & getting involved in the early planning stages of the TA organization, it will ensure that the TA organization is aware of the IH requirements and needs. This will provide sufficient time for preparation and planning and ensure that resources will be made available to the IH. During TA, IH activities are more field based verification checks and this will help verify whether if the recommendations put in place are adequate. Lessons Learned: In order to learn, improve and be better prepared for the next TA, IH typically will conduct the following post TA activities: Conduct post TA reviews and feedback; Review of exposure monitoring data; Review of IH TA checklists for trends, significant successes or failures; Update IH procedures if required; Participate in post -TA critiques; and Document learnings. Lessons Learned: Prior or concurrent air sample data using NIOSH method 0600/7500 is needed in order to estimate www.AIHce2015.org 75 SR-401-13 Reducing Welders’ Exposure to Manganese Welding Fume Using Low Manganese Emissions Flux Core Wire J. Capuzzi, ESIS, Cape May Courthouse, NJ Objective: The purpose of this study is to determine if welders’ exposure to manganese welding fume is reduced by substituting low manganese emissions flux core wire for the standard flux core wire. Methods: Full shift or representative full shift personal breathing zone samples were collected for welding fumes using 25mm mixed cellulose ester filter sampling cassettes at a flow rate of 1–2 liters per minute. SKC AirChek sampling pumps provided the vacuum source. Pumps were calibrated prior to and after the sample collection using a TSI 4100 Series mass flow meter traceable to the National Institute of Standards and Technology in conjunction with the filter media. The filter cassette was placed inside the welding helmet. Ten welders using the standard flux core wire (Hobart Formula XL-550 flux core welding wire) were monitored on day one of the study while conducting typical welding activity on railroad tank car parts and tanks. Ten welders using the low manganese flux core wire (Hobart Element 71T1C low manganese emissions flux core wire) were monitored on day two of the study while conducting typical welding activity on railroad tank car parts and tanks Results: The mean worker exposure using the 71T1C low manganese flux core wire was 0.359 mg/m3 which represent a reduction from the baseline XL-550 wire mean of 1.02 mg/ m3. The Mann-Whitney U-test showed that the difference between the data was statistically significant at α = 0.05. None of the exposure concentrations measured using the 71T1C low manganese flux core wire was less than the American Conference of Governmental Industrial Hygienists (ACGIH) Threshold Limit Values (TLVs) of 0.02 mg/m3 as an 8-hour timeweighted average (TWA) for manganese despite the significant reductions in exposure concentration shown. Conclusions: The low manganese emissions flux core wire did have a statistically significant desired outcome of reducing welders’ exposure to manganese. The use of the low manganese emissions flux core wire is recommend if it is technically feasible and meets the welding quality requirements/specifications. The low manganese emissions flux core wire in conjunction with other control measures such as local exhaust ventilation, which was not used during this study, and welder awareness training is also recommended to aid in reducing welders’ exposure to manganese welding fume as well as to other welding fume. PS402 Poster Session 2 Author Attend Time: Monday 2:00 p.m. - 4:00 p.m. *All posters are available for viewing in the expo hall from Monday 9:00 a.m. through Wednesday 1:00 p.m. SR-402-01 Biomonitoring of Arsenic Exposure, Health Effect and DNA Methylation for Workers in Semiconductor and Electro-optics Industries I. Mao, Chung Shan medical University, Taichung, Taiwan Objective: Employees in semiconductor and electro-optics industries are prone to chronic exposure of low level arsenic. 76 AIHce 2015 | May 30 – June 4 | #AIHce This study evaluated the arsenic exposure, health effects and blood DNA methylation for workers in these industries. Methods: One hundred and thirty three subjects, including 74 subjects in the exposure group and 59 subjects in the control group, were recruited from three semiconductor and electro-optics industries. All of the subjects were evaluated by questionnaires, total arsenic (tAs) in blood, biochemical indices of liver and renal functions, as well as DNA methylation status of the p53 and p16 genes. Results: Analysis results indicated that the blood tAs in preventive maintenance (PM) engineers (11.63±4.42 μg/L) were significantly higher than those in operators (10.03±2.23 μg/L) (p<0.05). Additionally, the blood tAs in semiconductor workers (11.93±2.32 μg/L) were significantly higher than those in electro-optics workers (10.41±3.64 μg/L) (p<0.05). The abnormal proportion of serum glutamic pyruvic transaminase (SGPT) in the exposure group (33.8%) was significantly higher than that in the control group (13.8%) (p<0.01). Moreover, the abnormal proportion of serum glutamic oxaloacetic transaminase (SGOT) in the exposure group (12.2%) was also higher than that in the control group (5.2%). Furthermore, the subjects in the exposure group had a higher proportion of methylated DNA both in p16 and p53 genes (68.9%) than those in the control group (55.9%) (p=0.096). Conclusions: In conclusion, this study indicated the liver function and DNA hypermethylation status should be particularly concerned for arsenic exposure workers in semiconductor and electro-optics. SR-402-02 Asbestos Manufacturing Industries - Analyzing 80 Years of Exposure Data Z. Capshaw, E. Hsu, G. Anderson, C. Barlow, Cardno ChemRisk, Boulder, CO Objective: During the early-to-mid 20th century, individuals working in asbestos product manufacturing industries had opportunities for high exposures to asbestos fibers. These exposures may still occur today in developing countries where asbestos manufacturing industries still exist. Although industrial hygienists have historically characterized the exposures in these industries on an individual level, to date there has been no attempt to assimilate this literature and analyze large scale trends in the data. The objective of this work was to aggregate all available asbestos exposure literature for asbestos product manufacturing industries in order to observe trends across industry, process, time, and country. Methods: A comprehensive literature review was conducted of all publicly available documents that contained exposure data on three different manufacturing settings: textiles, cement, and friction products. The data was coded based on comparable exposure groups, aggregated, and then stratified by several variables including industry, time period, and country. Exposure controls and trends in exposure over time were compared with the applicable contemporaneous exposure guidelines and regulations. Results: The studies included in the review spanned over 80 years and were conducted in seven different countries. In general, workers in the textile industry experienced the highest exposures in all phases of production. For friction and cement manufacturing workers, the highest exposures occurred during the tasks associated with the processing phase and the fiber preparation phase, respectively. Workers handling raw fiber had much higher exposures than other process workers, who in turn had higher exposures than clerical and maintenance staff. Exposures in U.S. and European manufacturing settings steadily decreased over time across all industries and tasks, as regulations and knowledge increased. However, recent studies confirmed that current exposures in developing nations may still be excessive. Conclusions: More industrial hygiene professionals and programs, regulations, and enforcement are likely needed in the asbestos industry within developing countries. By following the example set by the U.S. and Europe in this respect, these countries will be better able to protect the health of workers. SR-402-03 Petroleum Refinery Worker Oil Mist Exposure Evaluation P. Owens, Shell Oil Company, Martinez, CA Objective: Within this petroleum refinery rotating equipment is lubricated continuously with an oil mist generated from a special system. The oil mist system delivers lubricating mist to the open atmosphere within millimeters of the surface of the bearing. While some of the oil mist contacts the bearings, the problem is some of it enters the atmosphere. Petroleum refinery workers sometimes observe visual oil mist ‘haze’ around rotating equipment and throughout an area with many oil mist release points. Workers have asked whether the oil mist exposure exceeds exposure limits. Methods: To resolve the question of exposure, full-shift and grab ambient air area samples were collected where oil mist concentrations were anticipated to be highest. One sample was analyzed for polycyclic aromatic hydrocarbons to determine if any oil mist contacting the bearings converted molecular structure. Several particle size grab samples were collected to examine oil mist droplet size. Results: The full-shift area air sample results were well below the exposure limit. The modeling estimates were relatively close to the sample results albeit slightly higher concentrations. One sample analyzed for polycyclic aromatic hydrocarbons failed to detect any of these compounds. Given the inaccuracies with the oil mist droplet size analysis, these generally show mist diameters less than 10 microns. Conclusions: Contrary to visual appearances, our lesson learned was the presence of visual haze within a process unit does not necessarily indicate a hazardous concentration of airborne oil mist. The particle size of the oil mist appears to effectively scatter light so the visual appearance exceeds true mass concentration of oil mist. SR-402-04 The Effects of Silica Exposure on Cardiac and Renal Inflammatory and Fibrotic Response and the Antagonistic Role of interleukin-1 beta in C57BL/6 Mice T. Shi, Hubei Center for Disease Prevention and Control, Wuhan, China Objective: Current epidemiological studies suggest that crystalline silica exposure is associated with an increased risk of cardiovascular and renal disease, however, the potential pathological damage of the heart and kidney and its underlying mechanisms have not been completely elucidated. This study tried to investigate the silica-induced inflammatory and fibrotic changes of the heart and kidney and evaluate the role of interleukin (IL)-1beta (β) in silica-induced cardiac and renal damage. Methods: In this study, a silica-exposed model was generated by intratracheally instilling silica dust in mice. The anti-IL-1β monoclonal antibody (mAb) was used to neutralise IL-1β in the pulmonary alveolus and serum. The mice were randomly divided into four groups: the blank control, silica exposure, the silica+Ab and the silica+C-Ab group. Each group consisted of 32 mice and each group was further subdivided into four groups (n=8 for each group) for days 1, 7, 28 and 84 after treatment. Results: The real-time PCR studies showed that 1) inhalational silica induced inflammatory responses in the heart and kidney by elevated mRNA levels of TNF-β, IL-6 and MCP-1; 2) early fibrotic responses in the heart were observed as elevated mRNA levels of collagen β and fibronectin. What’s more, fibrosis of the kidney was demonstrated by pathological results and significantly increased mRNA levels of TGF-β, collagen β, collagen III and fibronectin. Further studies showed that usage of anti-IL-1β mAb decreased the inflammatory response of the heart and kidney induced by inhalational silica and also attenuated fibrosis in the mouse kidney. Conclusions: This study found that inhaled silica induced inflammatory and early fibrotic responses in the mouse heart, and inflammatory response and fibrosis in the mouse kidney. Neutralisation of IL-1β attenuated the silica-induced inflammatory response of the heart and kidney and decreased fibrosis in the mouse kidney. SR-402-05 Use of High Level Disinfectants in Healthcare: A Survey of Precautionary Practices S. Henn, J. Boiano, A. Steege, NIOSH, Cincinnati, OH Objective: The primary objective of this study was to describe the precautionary practices, including exposure controls, among healthcare workers who use high level disinfectants (HLDs) to disinfect medical and dental devices, identification of barriers to using personal protective equipment (PPE) during handling of HLDs, and to characterize current use of specific HLDs. HLDs are used in healthcare to chemically disinfect reusable, semi-critical medical and dental devices to control and prevent healthcare associated infections among patient populations. Healthcare workers who use HLDs are at risk of being exposed to these chemicals, some of which are recognized as respiratory and skin irritants and sensitizers. Methods: NIOSH conducted a web-based survey of healthcare workers in 2011. The study population included members of professional practice organizations who indicated that they handled HLDs in the past seven calendar days. Participating organizations invited either all or a random sample of members via email which included a hyperlink to the survey. Descriptive analyses of the survey results were conducted including simple frequencies and prevalences. Results: A total of 4,657 respondents completed the survey. HLDs used most often were glutaraldehyde (59%), peracetic acid (16%), and ortho-phthalaldehyde (15%). Among the survey respondents 19% reported their employer lacked or that they were unaware of standard procedures for handling of HLDs while 17% reported having never received training on the safe handling of HLDs. Failure to wear recommended PPE was reported for water-resistant gown (44%) and protective gloves (9%). The most commonly reported reason for not wearing www.AIHce2015.org 77 PPE was ‘minimal exposure’. Twelve percent of respondents reported skin contact with HLDs within the previous seven days. Respondents reporting skin exposure were four times more likely not to wear gloves. A spill or leak of HLDs in the previous seven days was reported by 5% of respondents. Conclusions: Findings indicated precautionary practices were not always used, underscoring the importance of improved training and education on HLD hazards among employers and workers. SR-402-06 Use of Precautionary Practices Reported by Nurses and Pharmacy Personnel Who Compound Antineoplastic Drugs J. Boiano, A. Steege, M. Sweeney, NIOSH, Cincinnati, OH Objective: Precautionary guidelines detailing standards of practice and equipment to minimize exposure to antineoplastic drugs during handling activities have been available for nearly three decades. The purpose of this study was to describe work conditions and practices including availability and use of exposure controls and barriers to using personal protective equipment by healthcare workers who prepare chemotherapy drugs. This survey is the first to examine use of engineering and administrative controls among pharmacy professionals. Methods: Several professional practice organizations representing pharmacists, pharmacy technicians, and oncology nurses collaborated with NIOSH to develop and implement the survey. Organizations invited members via email with a link to the anonymous web-based survey. Results: 241 nurses and 183 pharmacy professionals who compounded antineoplastic drugs in the past week completed the survey. Lack of universal adherence to recommended guidelines, reported by nurses and pharmacy professionals respectively, include: failure to always use engineering controls including closed-system drug transfer devices (75%, 53%), biological safety cabinets (11%, 23%) and needleless systems (59%, 75%); failure to always wear non-absorbent gown with closed front and tight cuffs (38%, 20%) or chemotherapy gloves (8%, 10%); I.V. lines sometimes/always primed with antineoplastic agent (19%, 30%) instead of non-drug solution; taking home potentially contaminated clothing (24%, 9%); and lack of hazard awareness training (9%, 13%). Sixty-one percent of nurses and 45% of pharmacy professionals reported that their employer did not provide a medical surveillance program. The most common reason for not wearing chemotherapy gloves by both groups was “skin exposure was minimal.” Top reasons for not wearing protective gowns were: “not part of our protocol” (nurses) and “an engineering control was being used” (pharmacy professionals). However, 11% of nurses and 4% of pharmacy professionals reported skin contact with antineoplastic drugs during the past week. Conclusions: Despite the long-standing availability of safe handling guidance recommended practices are not always followed placing workers, co-workers, and even family members at risk. Employers and healthcare workers share responsibility for ensuring safe compounding of antineoplastic drugs. Study findings can be used to raise awareness of hazards and exposure controls among both groups. 78 AIHce 2015 | May 30 – June 4 | #AIHce SR-402-07 Exposure Evaluation and Control of Acetone in a Plastination Laboratory M. Valigosky, S. Milz, S. Rohrs, F. Akbar-Khanzadeh, A. Ames, University of Toledo, Toledo, OH Objective: Occupational exposure monitoring to acetone was conducted in a university laboratory that specializes in the process of plastination, a unique method of specimen preservation. Exposure to acetone occurs during the dehydration and transferring of specimens to and from large, open-top vats of acetone. This study evaluated four different ventilation systems to determine the most effective method for removing acetone vapors, decreasing LEL and reducing occupational exposures below acceptable occupational exposure limits. General ventilation, increase in negative pressure in general ventilation, and two local exhaust ventilation systems were evaluated. Methods: Exposure sampling was conducted during 2012–2013 using a handheld volatile organic compound (VOC) detector with a photoionization detector (PID) that ranges from 0 to 10,000 ppm (MiniRAE 2000, RAE Systems). The instrument was calibrated with isobutylene. The acetone correction factor was applied to accurately measure acetone vapor exposure. Exposure concentrations were logged during the entire specimen transfer process, typically 10 to 60 minutes. ProRAESuite was used to calculate the STEL and TWA of exposure to acetone. Comparisons of all four ventilation designs were used to determine which system provided the most effective means of control. Results: Ventilation Design 1 used general exhaust as the primary method of removing acetone vapors and resulted in a STEL of 1420 ppm. In comparison, Ventilation Design 4 was a slotted hood and make-up air system with dedicated fans. The resulting changes to the ventilation design proved successful as the STEL was reduced to 714 ppm. This is below the ACGIH STEL for acetone (750 ppm), and is nearly half of the original STEL with Ventilation Design 1. The highest calculated 8-hr TWA was 48 ppm, well below the OSHA PEL of 1000 ppm and ACGIH TLV of 500 ppm. Conclusions: The final ventilation design was determined to be the most effective at reducing acetone exposure and eliminating potentially explosive atmospheres. The results indicated a slotted hood with dedicated exhaust and supply fan was the most effective at reducing exposure and removing acetone vapors from the workplace. SR-402-08 Identification of Chemicals and By-products Generated from Semiconductor Photo-lithography Process K. Shin, J. Hong, H. Jung, K. Kim, D. Kim, Samsung Electronics, Yong-in, Republic of Korea Objective: A photosensitive material called PR(photoresist) is used in Semiconductor photo-lithography process. Since the components of PR are the core technology of the PR material, the components are kept as trade secret by PR manufacturing companies. Thus, it is necessary to verify safety of photolithography process in health’s point of view. In this study, the uncertainty of the hazard of photo-lithography process will be resolved by confirming the by-products. More specifically, the study is focused on figuring out if any by-products may possibly cause hematopoietic and lymphatic cancers or not. Methods: A qualitative analysis on the PR components and by-products produced in photo-lithography process were evaluated. Analysis of the by-products was performed under equivalent condition as the real photo-lithography process, by detection of out-gassing in each step of photo-lithography process (PR coating, soft bake, exposure, post exposure bake). 5975C GC/MSD tool interconnected to Agilent 7890A GC system and Teledyne Tekmar HT3 Headspace tool were used. PR is categorized in 3 different groups, including I-line, KrF and ArF PR. And 4 I-line PR, 5 KrF PR and 5 ArF PR samples were selected for this study which are used most commonly in two semiconductor workplaces. Results: As a result of this study on PR components and byproducts of photo-lithography process, 39 chemicals in I-line PR, 25 chemicals in KrF PR and 23 chemicals in ArF PR were detected through analysis. Further study was executed on whether the detected chemicals include any hematopoietic and lymphatic cancers causing chemicals categorized by IARC or not. In conclusion, there were no chemicals that cause hematopoietic and lymphatic cancers (benzene, formaldehyde, ethylene oxide, etc) among the chemicals identified in this study. Conclusions: 39 chemicals were found in I-line PR, 25 chemicals in KrF PR and 23 chemicals in ArF PR. However, it was verified that there are no direct relationship between semiconductor photo-lithography process and hematopoietic and lymphatic cancers. In results, the uncertainty of the hazard of photolithography process is resolved. Future studies will be continued on other toxicity (CMR, etc), and if such hazardous chemicals are found, exposure assessment will be held to confirm whether the workers are exposed to them. Although exposure assessment was not performed, this study on the identification of possible hazard chemicals is still meaningful by itself. CS-402-09 Case Study of Several Indoor Air Quality (IAQ) Assessments Which Identify Non-traditional Causes/ Agents Associated with the Described Complaints/ Symptoms/Concerns of Office Occupants M. Heaney, Liberty Mutual Group, Bedford, NH Situation/Problem: This poster session is a discussion of several case studies of Indoor Air Quality assessments that were determined through the on-site investigation to involve agents which are not traditionally associated with poor air quality. It was determined that a more detailed and creative assessment strategy is warranted to identify causes of unusual odors, rashes/insect bites and incidents of headaches. Resolution: The purpose of these Industrial Hygiene Indoor Air Quality Assessments/Investigations was: -To obtain information on the employee complaints/concerns as they related to the office environment through employee interviews and by conducting an on-site evaluation. -To review the building’s Heating, Ventilation and Air Conditioning System, obtain readings of general Indoor Air Quality parameters and to investigate possible contributing factors associated with the symptoms/concerns. -To identify possible causes either from internal (within the building) or external (outside the building) contaminant source(s) for the symptoms/complaints/concerns related to the respective office environment. and -To identify corrective action(s) to remove the suspected “cause” for the symptoms/complaints/concerns. Results: Industrial Hygiene investigations of concerns/ complaints/symptoms that were initially believed to be related to poor Indoor Air Quality, turned out to be caused by agents such as insects (yellow sac spiders), rodents (lizards aka “skinks”) and a lack of adequate lighting. Some of conclusions were developed immediately, and some conclusions may involve the use of outside experts (pest control and a local zoo) to help specify the causative agent. Lessons Learned: Employee concerns/complaints/symptoms may be presented to an industrial hygienist as an “Indoor Air Quality” issue. Once an investigation takes place, the actual issue/cause for the complaint might be related to physical (noise or lighting) or biological (in these cases, insect or rodent) in nature. Utilization of good industrial hygiene hazard assessment methods can yield a positive outcome in these nonconventional Indoor Air Quality assessments by thinking outside of the box and considering causative agents that may not be typically associated with poor indoor air quality. SR-402-10 Determinations of the Indoor Air Quality in Hairdressing Salons in Taipei C. Chang, W. Tseng, C. Chang, S. Tsai, Institute of Environmental Health, College of Public Health, National Taiwan University, Taipei, Taiwan Objective: Various cosmetic hair products are constantly used in hairdressing salons. Aside from skin absorption, different hazards may be released during hair treatments. Previous studies have indicated that increased risks of cancers, respiratory symptoms, reproductive disorders, and skin symptoms were found among hairdressers. However, the exposure assessments are few. To assess the hairdressing environment in Taipei, the walk-through survey and air sampling of formaldehyde, volatile organic compounds (VOCs), and phthalates were performed in this study. Methods: Charcoal, XAD-2, and OVS-Tenax tubes were used for the air sampling, and the flow rates were 50 mL min-1, 100 mL min-1, and 1000 mL min-1, respectively. Both 5-hour average environmental sampling and customer’s personal sampling during hair treatments were performed. After absorbents were desorbed, the samples were analyzed with gas chromatography/ mass spectrometry. A direct-reading device was used to observe changes of formaldehyde concentrations during opening hours. Meanwhile, environmental characteristics and products ingredients were also recorded in this study. Results: Ten hairdressing salons were included for walk-through survey, and 5 salons were involved for field sampling. There were total 89 environmental samples, 12 customer’s personal samples, and 72 short-term formaldehyde samples. As for the results of air sampling, formaldehyde concentrations was ranged from 0.01 to 1.04 mg m-3, and the maximum level was above the permissible exposure limit (PEL) of American Occupational Safety and Health Administration (OSHA). Additionally, about 16.67 % samples exceeded action level, and 83.33 % levels were higher than the recommendation of World Health Organization (WHO). For VOCs and phthalate esters, some levels measured were higher than the concentrations of general indoor environments reported by earlier research. The results of short-term formaldehyde concentrations showed that chemicals might accumulate in hair salons during opening hours. Conclusions: The results indicated that airborne chemical exposure, especially formaldehyde, is the problem worthy of attention in hairdressing salons. Therefore, monitoring the indoor air quality, giving workers health educations, choosing the safe products, and increasing the ventilation rates are all www.AIHce2015.org 79 crucial to minimize the exposure in hairdressing environments. SR-402-11 Endotoxin in Urban Homes: Health Effects and Home Conditions J. Crawford, SUNY College of Environmental Science and Forestry, Syracuse, NY; P. Rosenbaum, J. Abraham, SUNY Upstate Medical University, Syracuse, NY; A. Hunt, University of Texas at Arlington, Arlington, TX Objective: Endotoxin is a component of gram-negative bacteria capable of causing a strong inflammatory response. Endotoxin exposure can exacerbate asthma and respiratory symptoms but may also protect against the development of allergic responses. Low-income urban areas are of concern because of high child asthma rates. This study sought to determine the distribution of endotoxin concentration in house dust of homes of infants in low income areas of Syracuse, NY. We investigated whether endotoxin exposure was related to wheezing and eczema incidence among these infants and whether home conditions predicted endotoxin concentrations. Methods: 101 homes were inspected and house dust was collected by vacuum. Samples were analyzed for endotoxin with the limulus amebocyte lysate test. Infant health was evaluated at home visits by a nurse practitioner and through medical record review. Multivariable logistic regression was used to relate endotoxin levels and health effects (episodes of wheeze or eczema). Multiple linear regression was used to relate endotoxin levels and household conditions. Results: The geometric mean concentration was 76 EU/mg (endotoxin units/mg dust) range (8.4 - 658 EU/mg). Multiple linear regression showed that significant predictors of endotoxin (p<0.05) were high relative humidity, fall season, housekeeping issues, baby’s race and a dog in the home. Infants exposed to the highest endotoxin concentrations (4th quartile), had three times the risk of wheeze compared with infants in the lowest quartile (OR 3.19 95% CI 1.0–10.2). After adjustment for birth season, baby gender, baby’s race and Medicaid insurance, the endotoxin-wheeze relationship was attenuated and was no longer significant. Eczema risk did not differ by quartile of endotoxin concentration. The odds ratio point estimates were all <1, showing a tendency for reduced eczema risk, but results were not significant at p<0.05. Conclusions: The major predictors of endotoxin in household dust were fall season, relative humidity, housekeeping issues, race, and dogs in the home. Endotoxin was not associated with eczema in this cohort. High endotoxin concentration was related to episodes of infant wheeze; however the positive association was partially explained by perinatal and socioeconomic factors. CS-402-12 Performance of Specified Indoor Air Quality Investigations with Site Monitoring including Airborne Chemical Substances and Microbial Agents to Address Client Goals Related to Potential Workplace Exposures, Resolution of Odor Complaints, and Response to Reported Personnel Concerns J. Koehn, L. McKelvey, W. Young, JK, Inc., Houston, TX Situation/Problem: Industrial hygiene consulting services were requested by a variety of Clients to address indoor air quality (IAQ) assessments in numerous types of workplaces within Houston, Texas during 2012–2014. Specific proactive IAQ monitoring work 80 AIHce 2015 | May 30 – June 4 | #AIHce was performed for multi-story office complexes and hospitals involving implementation of defined airborne sampling strategies including determination of microbial agents. Reactive responses were often conducted for public facilities, tenant offices, and also school districts. Industrial hygiene challenges were encountered to meet the needs of facility management Clients and impacted personnel involving strategy development, data documentation, interpretation, and hazard communication. Resolution: Proactive as well as reactive IAQ and other workplace monitoring projects are routinely performed as site industrial hygiene investigations for Clients. Published sampling and analytical methods are researched to best meet the specific site needs and provide pertinent monitoring data for workplace assessment and other outlined project goals. Various criteria routinely included are: basic IAQ parameters, microbial agents (i.e. culturable versus non-culturable methods), specific chemical substances or particulates, and use of direct-reading instruments for an outlined airborne strategy and thorough site investigation. Results: Project monitoring of numerous workplaces is routinely addressed within multi-tenant office buildings, schools, industrial plant and office settings, and specific incident response criteria as needed. Assessment results are summarized and report documents prepared to record existing potential occupational exposures for review and consideration by the Client with recommendations provided to assist with resolution and/or additional areas of investigation. Lessons Learned: A range of assessment techniques can be utilized to provide IAQ data from project site investigations for various occupational environments. Specific industrial hygiene and IAQ knowledge involving referenced methodologies along with subsequent data interpretation are employed to address the outlined facility management needs and provide project documentation and hazard communication information for appropriate work site assessment. Client budgets must be considered to best meet the project workplace monitoring goals along with anticipated resolution of personnel exposure concerns or nuisance issues. CS-402-13 Ventilation Renovation Disconnect S. Ahrenholz, R. Niemeier, NIOSH, Cincinnati, OH Situation/Problem: NIOSH received a Health Hazard Evaluation (HHE) request to evaluate the potential for TB transmission at a detainee processing facility. Immigration and customs enforcement officers process detainees whose tuberculosis disease (TB) status may not be known. Concerns existed that the ventilation system in the facility was inadequate to reduce potential for TB transmission. HHE investigators found that return air from the detainee areas, including an isolation holding room, mixed with return air for the rest of the building. The detainee processing area was under positive pressure relative to other parts of the building. Resolution: HHE final report recommendations were reportedly used to develop building renovation plans. NIOSH investigators did a followback site visit to visually inspect and measure air flows of new ventilation systems using a flow hood, smoke tubes, and micromanometer. Building systems were undergoing startup and refinement of system operation following completion of renovation and re-occupancy of the building during the NIOSH follow back site visit. Results: Centers for Disease Control and Prevention recommendations for reducing recirculation of return air from detainee processing, detention cell, and isolation rooms were not met by the new ventilation systems. Air changes per hour (ACH) were less than the 12 recommended for general ventilation to facilitate TB prevention and control. Ventilation systems serving the detainee processing area and office areas of the building overlapped. A review of renovation plans disclosed design specifications used for the new ventilation systems conformed to local building code ACHs instead of the higher levels for TB control. Lessons Learned: Ventilation system plans must be reviewed and revised prior to final approval and construction to ensure specified ventilation system ACHs, configuration, and areas served conform to additional requirements for TB prevention and control. Ventilation system design and construction to meet required building codes may not meet requirements for specialized applications. CS-402-14 Aircraft Cabin Crew Noise Exposure R. Higley, ESIS, Corona, CA Situation/Problem: In 2012, a Memorandum of Understanding between the FAA and OSHA gave OSHA jurisdiction on noise exposure for cabin flight crews for commercial aircraft. This resulted in airlines needing to determine if their cabin flight attendants would be required to participate in a Hearing Conservation Program (HCP). One airline came to ESIS requesting assistance to determine if their flight attendants are exposed to noise above the Action Level of 85 dBA TWA. Resolution: The airline operates regional jets and propeller driven aircraft with flights lasting from less than an hour up to 3 hours. Initial data gathered by the airline indicated that the smallest regional jet and the propeller driven aircraft have the greatest noise exposure. Initial problem - identify the “average” work day and noise exposure to cabin crew. Break down crew work days into segments - time in the terminal, tarmac, pretake off, taxi, take-off, cruise, descent, landing, taxiing and layover in the terminal. While no day is “typical”, an effort was made to evaluate the noise exposure for an 8 hour day. Note that cabin crew are provided with hearing protection for use at their discretion. Casella Cel 350 Dosimeters were used to evaluate cabin crew noise exposure. Total of 11 measurements obtained over a 3 day period. Cabin crew members were provided with the dosimeters and trained on how to operate the dosimeters as they would have layovers including overnight stays in other cities. Upon return, information from the dosimeters was downloaded to a computer program and recorded. Flight attendants were interviewed following their trips to help determine noise sources, exposure times etc. Results: Measured average noise exposures ranged from 7884 dBA TWA for the propeller driven aircraft. While the average noise exposures fall below the requirements for a Hearing Conservation Program, segments of the flight (take off, cruise) had noise levels approaching and in some cases, exceeding 90 dBA. The use of hearing protection is encouraged during at least these flight segments. Measured noise exposures for the jet aircraft was 77 dBA TWA. A formal Hearing Conservation Program was not mandatory. Lessons Learned: Predicting cabin crew noise exposure can be challenging given the widely varying schedules and crew assignments. Identifying and evaluating the ‘worst case’ exposures assures that appropriate controls are being implemented to help protect cabin crew members hearing. SR-402-15 Environmental Noise Impacting a Neighborhood near a Higher Education Research Facility A. Ames, M. Valigosky, S. Milz, T. Hagood, R. Roberts, F. Akbar-Khanzadeh, University of Toledo, Toledo, OH Objective: Noise within the occupational environment can easily affect surrounding neighborhoods. This may cause discomfort in local residents and subsequent complaints. This study investigated whether noise initiated in a Higher Education site had an unfavorable effect on local neighborhoods. The sources of noise were evaluated to determine whether the noise levels may create excessive exposure to the residents. The study focused on the noise levels generated from HVAC equipment including a cooling tower, generators, rotating machinery and other mechanical sources at the Higher Education site. Methods: Noise levels were measured using a set of dosimeters (Larson Davis Spark 705+) in and around potential noise sources and at a property bordering the Higher Education site. Nine days of sampling were performed over three months (May-July) during 2013. Dosimeters were programmed to record noise for 24 hours a day (at one minute intervals), using ACGIH and OSHA dosimeter parameters. The dosimeters were calibrated using a Larson Davis CAL150. Data from the instruments were uploaded to Blaze software and exported for analysis in SPSS Statistical Package. Results: The findings indicated significant variations in noise levels depending on the monitoring location and time of day. The minute-average noise levels [Mean±SD (Min-Max)] in terms of Leq (dBA) of daytime noise levels at the residential property line, summarized by equipment status included: 60.2±2.67 (53.071.2), cooling tower off, generator off; 74.3±0.76 (70.8-74.7) cooling tower off, generator on; 62.3±1.30 (60.4-90.1) cooling tower low operation, generator off; 77.0±1.02 (71.3-77.9) cooling tower low operation, generator on; and 68.7±1.57 (66.9-74.5) cooling tower high operation, generator off. The Mean±SD (MinMax) in dBA of observed nighttime noise levels at the residential property line included: 63.0±1.69 (58.3-66.9), cooling tower off, generator off and 61.9±0.43 (61.1-68.7) cooling tower low operation, generator off. Conclusions: Based on the noise ordinance for the city, noise levels within a residential area must not exceed 60 dBA between the hours of 7 am and 10 pm or 55 dBA between the hours of 10 pm and 7 am. The noise levels measured at the residential property line were affected by the noise emissions. The results from this study suggested a possible violation of the city’s noise ordinances and required a remediation program to return to continuous compliance. SR-402-16 Task Specific Noise Levels during Live Fire Training L. Gilbertson, D. Vosburgh, University of Wisconsin – Whitewater, Whitewater, WI Objective: Previous research shows that firefighters are at an increased risk for noise induced hearing loss and operate equipment with noise levels greater than 85 dB. However, it is often reported that firefighters do not reach an eight hour time weighted average (TWA) of 85 dB or greater. The high variability in occupational tasks and intermittent noise exposure of firefighters offers an explanation for the low eight hour TWA. The current study aims to evaluate specific occupational tasks www.AIHce2015.org 81 and shift responsibilities that present the greatest risk to the hearing health of firefighters during a live training exercise. Tukey’s HSD test was used to determine if the results differed by microphone or noise measurement application. Methods: Three volunteer firefighters wore a noise dosimeter during a four hour live fire training exercise. Each firefighter had different overall shift responsibilities: run the pump on the engine, control operations near the fire scene, or operate communication in the engine. In addition to noise dosimeter measurements, a member of the study team recorded the occupational activities of the firefighters and the time when they occurred in order to link the task with specific noise levels recorded during the corresponding time on the dosimeter. Results: Few smartphone applications capable of timeintegrated noise measurements are currently commercially available. Measured noise levels were found to differ between noise measurement applications. Measurements made with high-end lapel microphones combined with certain noise measurement applications did not differ significantly from measurements made with the Type 2 sound level meter. Results: Analysis of the data revealed that the three occupational tasks with the highest noise levels were the operation of the water pump on the fire engine (89 dBA), traveling time in one of the three fire engines (86 dBA), and clean up at the fire house (84 dBA). There were significant differences between the noise levels of the three engines during the travel to and from the fire station to the live fire training site (p = 0.004). The firefighter responsible for operating the water pump on the engine recorded the highest TWA (86 dBA). The activity closest to the fire, as measured by the firefighter responsible for controlling ground operation on scene, recorded a TWA of 80 dBA. The tasks conducted inside the cab of the engine while on scene recorded a TWA of 77 dBA. Conclusions: In the current study, the occupational activity that posed the greatest risk to firefighters’ hearing health was the operation of the water pump on the engine. The firefighter who ran the pump on the engine would need to be enrolled in a hearing conservation program if his 4 hour TWA were continued for a full 8 hours. Results support hearing conservation plans for firefighters that are routinely responsible for high noise level tasks during their shift. SR-402-17 Using Commercially Available Smartphones to Measure Occupational Noise Exposure B. Roberts,R. Neitzel, University of Michigan School of Public Health, Ann Arbor, MI Objective: Occupational noise exposure is one of the most frequent hazards present in the workplace; up to 22 million workers have potentially hazardous noise exposures in the U.S. As a result, noise-induced hearing loss is one of the most common occupational injuries in the United States, and workers in manufacturing, construction, and the military are at especially high risk for hearing loss. Despite the large number of people exposed to high levels of noise at work, many professions have not been adequately evaluated for noise exposure. In 2014, a study conducted by the National Institute for Occupational Safety and Health (NIOSH) found evidence that certain smartphone applications maybe suitable for noise monitoring. The objective of this experiment was to investigate whether or not smartphones could be used as reliable instruments to measure time-integrated noise exposures. Methods: For this study three different types of microphones were tested with a single model of smartphone: the internal microphones on the phone, a low-end lapel microphone, and a high-end lapel microphone marketed as ANSI type 2-compliant. All possible combinations of microphones and multiple timeintegrating smartphone noise measurement applications were tested in a controlled environment using several different levels of pink noise. Results were compared to noise measured using a Type 2 sound level meter. Analysis of variance (ANOVA) and 82 AIHce 2015 | May 30 – June 4 | #AIHce Conclusions: It may be possible for certain smartphones, with the proper applications and external microphones, to be used to collect reliable, time-integrated occupational noise exposure data. Further research is needed to determine how these devices compare to traditional noise dosimeter devices under real-world conditions. PS403 Poster Session 3 Author Attend Time: Tuesday 10:00 a.m. - 12:00 p.m. *All posters are available for viewing in the expo hall from Monday 9:00 a.m. through Wednesday 1:00 p.m. SR-403-01 Evaluation of the Impact of the “Restraining Line Rule” on the Incidence of Total and Head Injuries Occurring During NFL Kickoffs P. Ruestow, J. Pierce, T. Duke, L. Roberts, B. Finley, Cardno ChemRisk, Chicago Objective: Retired National Football League (NFL) players have been found to be at increased risk of neurodegenerative diseases, such as amyotrophic lateral sclerosis and Alzheimer’s disease as a result of mild traumatic brain injuries. With increased attention on the chronic effects associated with football, the NFL has implemented rules in efforts to protect the health of its players. For example, prior to the 2011 season, the “Restraining Line Rule” was implemented whereby the restraining line was moved from the 30- to the 35-yard line in an effort to increase touchbacks, and all kicking team players other than the kicker were required to line up no more than 5 yards behind their restraining line (eliminating the 15–20 yard running “head start”). The objective of this analysis was to evaluate the effects of this rule on injury incidence. Methods: Data on injuries occurring during kickoffs during the 2010 and 2011 NFL seasons were obtained from publically available NFL injury reports. The incidences of total and head injuries per 1,000 total kickoffs (including touchbacks) and per 1,000 kickoff returns prior to and after the enactment of the rule were compared using incidence rate ratios (RR). To evaluate if factors unrelated to the rule change were impacting injury rates a similar analysis was performed for punts, which would not have been affected by the rule. Results: A statistically significant decrease was observed in the incidence of total injuries occurring during kickoffs in 2010 vs. 2011 (RR: 2.2, 1.3–3.8). When the analysis was restricted to kickoff returns this change was no longer significant (RR: 1.5, 0.8–2.5). While the incidence of head injuries decreased by approximately 3-fold during all kickoffs and 2-fold for kickoff returns, neither of these changes was significant (RR: 3.0, 0.8– 11.2, and RR: 2.0, 0.5–7.5). No difference was observed in total or head injury incidence during punts or punt returns between the two seasons. Conclusions: These results suggest that the decrease in total injuries occurring during kickoffs was principally impacted by the increased frequency of touchbacks, and not the elimination of the running “head start.” The absence of a significant change in head injuries during kickoffs was unexpected, but may be attributable to small sample size. Injury incidence rates occurring during punt plays did not change from 2010 to 2011, which further supports the use of rule changes in sports injury prevention. SR-403-02 Identifying Predictors of Historical Lead Exposure Using the Published Literature and Meta-regression Model S. Locke, M. Friesen, National Cancer Institute, Bethesda, MD; N. Deziel, Yale University, New Haven, CT; D. Koh, National Cancer Center, Goyang, Republic of Korea Objective: The published literature is a rich data resource that can be used in reconstructing exposures for population-based studies; however, the data are reported as summary statistics, creating statistical challenges. Using meta-regression to account for each statistic’s variance and measurement number, we evaluated predictors of lead exposure for U.S. workers performing activities related to lead-based paint or cutting/ joining metal with heat using personal air and blood lead measurements from the published literature. Methods: From the literature, we extracted geometric mean (GM), geometric standard deviation (GSD), measurement number and other ancillary exposure variables. Mixed-effects metaregression models were developed separately for 206 air and 107 blood statistics, with log-transformed GM as the dependent variable. A random intercept was incorporated that weighted each result by a combination of the between- and withinresult variances, where the within-result variance equaled 1/ [(logGSD)2/N].Variables examined were year, job, industry, sampling strategy, containment use, worst case scenario, lead paint abatement work, respirator use, analytic method. Industry interactions with job and year were also tested. Results: The models explained 71% of air and 89% of blood between-result variances. For air, exposure declined 7%/yr and GMs varied >70-fold across 8 jobs, with the highest predicted for abrasive blasters and painters. Air GMs for auto radiator repair, steel/bridge construction and shipyards were 5, 23, and 34 times higher than general construction. Other predictors of air GMs included containment use, lead paint abatement work and analytic method. For blood, exposure declined 6%/yr for steel structure construction, 2%/yr for auto repair services and <1%/ yr for general and residential construction. Job blood GMs varied 8-fold, with abrasive blasters having the highest GMs. Blood lead GMs for auto radiator repair, steel/bridge construction, and shipyards exposures were 8, 1.3 and 1.4 times higher than general construction. Other predictors of blood lead GMs were job*industry interactions, worst-case scenario, respirator use and lead-based paint abatement work inside containments. Conclusions: The contrasts in lead concentrations across time, job, and industry observed here using meta-regression of published data can aid retrospective exposure assessment in US population-based studies. SR-403-03 Occupational Hearing Loss among Chinese Municipal Solid Waste Landfill Workers: A Cross-Sectional Study Y. Liu, Hubei Center for Disease Control and Prevention, Wuhan, China Objective: Occupational hearing loss is an increasingly prevalent occupational condition worldwide, and has been reported to occur in a wide range of workplaces; however, its prevalence among workers from municipal solid waste landfills (MSWLs) remains less clear. This study aimed to investigate the occupational hearing loss among Chinese MSWL workers. Methods: A cross-sectional study of 249 workers from 4 Chinese MSWLs was conducted. Noise levels at worksites of the 4 MSWLs were determined. We conducted hearing examinations for all workers to determine the hearing thresholds. Prevalence of occupational hearing loss was evaluated based on the US Occupational Safety and Health Administration (OSHA) standard. Using unconditional Logistic regression, we estimated the odds ratios (ORs) of MSWL workers associated with hearing loss. Results: According to the work history for each worker, the study subjects were divided into 3 groups, including Group 1 of 64 workers without occupational hazards, Group 2 of 85 workers with a few or short-period occupational hazards related to MSWLs, and Group 3 of 100 workers with continuous occupational hazards related to MSWLs. The mean noise levels at work sites of Group 1, Group 2 and Group 3 were 57.5 dB, 60.7 dB and 70.1 dB, respectively. Noise levels of 3 work sites of Group 3 were higher than 85 dB. Significantly poorer hearing thresholds at frequencies of 2, 3 and 4 kHz were found in Group 3. The overall prevalence rate of hearing loss was found to be 23.3%, with the highest in Group 3 (36.0%). Compared to Group 1, the OR of Group 3 associated with hearing loss was 3.46 (95% confidence interval [CI]: 1.30-9.19). Conclusions: MSWL workers suffer from significantly hearing impairment. MSWLs should consider hearing conservation programs. SR-403-04 Plasma Hsp70 and Hsp27 Levels and the Risk of COPD in Coal Miners: A Case-control Study X. Cui, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China Objective: This case-control study aimed to investigate the associations between plasma levels of heat shock protein 70 (Hsp70) and heat shock protein 27 (Hsp27) and the risk of chronic obstructive pulmonary disease (COPD) in coal miners. Methods: This study included 60 COPD cases and 30 agematched healthy controls, all of which were male coal miners and worked in a same coal mine for at least 20 years. The COPD group consisted of 30 COPD patients without coal worker’s pneumoconiosis (CWP) and 30 COPD patients complicated with CWP. For every participant, fasting venous blood was collected by heparinized tubes. Plasma was isolated by centrifugating and then stored at -80℃ until detection by enzyme-linked immuno sorbent assay. All statistical analyses were performed using SAS version 9.1. Analysis of variance and chi-square test were used for statistical comparisons between groups. Multiple logistic regression analysis was used to calculate odds ratios (ORs) and 95% confidence intervals (CIs) to estimate the effects of Hsp70 and Hsp27 on COPD. www.AIHce2015.org 83 Results: The plasma Hsp70 levels of all COPD cases were significantly higher than those of healthy controls (P<0.01). Plasma Hsp27 levels of all COPD cases were significantly lower than those of controls (P<0.01). We found significant associations between higher plasma Hsp70 levels and risk of COPD with and without CWP, with ORs of 75.69 (95% CI 6.98-820.69) and 10.29 (95% CI 1.81-58.62) respectively. Lower plasma Hsp27 levels were significantly associated with COPD without CWP (OR 2.79; 95% CI 0.48-16.31), as well as COPD with CWP (OR 23.58; 95% CI 3.41–163.34), which was much higher than the former. Conclusions: In summary, this case-control study showed that the up-regulation of plasma Hsp70 and the down-regulation of plasma Hsp27 might be associated with the risk of COPD among coal miners. Plasma Hsp70 and plasma Hsp27 may have the potential to be used as peripheral biomarkers for COPD monitoring in coal miners. SR-403-05 Urinary Polycyclic Aromatic Hydrocarbon Metabolites and Altered Lung Function: A Population-based Study in China Y. Zhou, Huazhong University of Science and Technology, Wuhan, China Objective: Polycyclic aromatic hydrocarbons (PAHs) exposure has been associated with adverse human health effects. However, the association between internal exposure to PAHs and altered lung function remains unclear. This study aimed to investigate dose-response relationships between urinary metabolites of PAHs and lung function in general population. Methods: We conducted a cross-sectional investigation of 3,053 adults in two communities in China. Each participant was administrated a standard questionnaire and a lung function test. Ten detectable urinary PAH metabolites (1-OHNa, 2-OHNa, 2-OHFlu, 9-OHFlu, 1-OHPh, 2-OHPh, 3-OHPh, 4-OHPh, 9-OHPh and 1-OHP) were analyzed by gas chromatographymass spectrometry (GC-MS). Multivariable linear regression and principle component regression were used to conduct dose-response analyses and compare the effect of each PAH metabolite on lung function alteration. We also explored possible correlation between internal PAHs exposure and exposure to traffic-related air pollution. Results: With adjustment for potential confounders, 1-standarddeviation increase in ln9-OHFlu, ln2-OHFlu , ln4-OHPh, ln1OHPh, ln2-OHPh, ln1-OHP and ln-total OH-PAHs was associated with a -20.15, -31.55, -22.81, -31.35, -31.33, -25.74 and -34.86 ml reduction in FEV1, respectively (all p<0.05), while 1-standarddeviation increase in ln2-OHFlu, ln2-OHPh, ln1-OHP and ln-total OH-PAHs was associated with a -33.47, -35.46, -23.83, -31.86 mL reduction in FVC, respectively (all p<0.05). Positive correlations between total OH-PAHs and traffic exposure time were found in both male (r=0.14) and female (r=0.24) nonsmokers, respectively (both p<0.001). Conclusions: Certain urinary PAH metabolites were potentially associated with lung function decline in general population. Exposure to traffic exhaust and cigarette smoke might strengthen the associations. 84 AIHce 2015 | May 30 – June 4 | #AIHce SR-403-06 Comparison of Drinking Water Contaminant Levels in New Jersey to Regulatory and Human-Health Benchmarks P. Williams, E Risk Sciences, LLP, Boulder, CO Objective: Potential threats to drinking water and water quality continue to be a major concern in many regions of the United States. The purpose of the current analysis was to provide an up-todate evaluation of the occurrence and detected concentrations of several volatile organic compounds (VOCs) in public water systems, private wells, and ambient groundwater wells in New Jersey based on the best available data, and to put these results into context with federal and state regulatory and human-health benchmarks. Methods: Analyses were based on three databases that contain water quality monitoring data for New Jersey: (1) Safe Drinking Water Information System (1997 to 2011), (2) Private Well Testing Act (2001-2011), and (3) National Water Information System (1993-2012). Contaminant levels of tetrachloroethylene (PCE), trichloroethylene (TCE), benzene, and methyl tertiary butyl ether (MTBE) were compared to federal or state primary Maximum Contaminant Levels (MCLs), health-based MCLs, or other derived human-health benchmarks. Results: PCE was detected at a concentration ≥0.44 μg/L, ≥1 μg/L, and ≥5 μg/L in 6.9%, 3.9%, and 1% of sampled public water systems, respectively. TCE was detected at a concentration ≥1 μg/L and ≥5 μg/L in 3.6% and 1.1% of sampled public water systems, respectively. Benzene was detected at a concentration ≥0.15 μg/L, ≥1 μg/L, and ≥5 μg/L in 3.1%, 0.9%, and 0.3% of sampled public water systems, respectively. MTBE was detected at a concentration ≥10 μg/L, ≥20 μg/L, and ≥70 μg/L in 2%, 1.4%, and 0.3% of sampled systems, respectively. Mean detected concentrations of PCE, TCE, benzene, and MTBE were 1.3 μg/L, 1.5 μg/L, 1.1 μg/L, and 2.7 μg/L, respectively. The detection frequency of these VOCs was notably lower in private wells, but higher in ambient groundwater wells. PCE, TCE, and benzene were detected more often above corresponding regulatory or human-health benchmarks than MTBE, due to their higher detected concentrations in water and/or greater toxicity values. Conclusions: The current analysis provides useful data for evaluating historical and current contamination of water supplies in New Jersey and potential opportunities for public exposures and health risks on a statewide basis. CS-403-07 Case Study in Providing Health Risk Assessment for New Technology in Challenging Environments T. Zaccaro, Shell Brasil, Rio De Janeiro, Brazil Situation/Problem: At Shell we require a Health Risk Assessment (HRA) to be performed for all of our operations. The HRA provides assurance of health hazard controls; a key output being the remedial action plan addressing any identified gaps. As the company seeks opportunities requiring the use of new technologies in more challenging environments, the industrial hygienist is tasked with completing assessments in remote environments which are difficult to access and have unique combinations of hazards. One such unique challenge is the Floating Production Storage and Offtake (FPSO). This vessel combines offshore drilling with oil storage and off loading capabilities. Constraints to reaching the FPSO are the limited number of persons who can be transported to the offshore location, and limited capacity for persons on board. As a result the HRA must be completed by the hygienist during a short on site visit to the FPSO. Resolution: Shell has established a global database of HRAs using an inventory of health hazards and standard controls and recovery measures. This reference material allows the hygienist to build a majority of the HRA while on shore. This is done using knowledge gained in previous completed HRAs from similar operations, and by contacting operations, maintenance staff and contractors to collect relevant details. During the on site visit to the offshore facility, the hygienist then verifies the hazard inventory is complete and controls and recovery measures are adequate. Results: A case study of an HRA for an FPSO off the coast of Brazil is presented. Lessons Learned: A high degree of flexibility and adaptability is required by the hygienist to provide assurance of health hazard controls in remote locations. Learnings from various areas of the vessel in the production operations, marine maintenance, catering, drilling, emergency response and helicopter operations will be presented. CS-403-08 Adjusting TLVs® for Reproductive and Developmental Health A. Reineke, J. Elias, Elias Occupational Hygiene Consulting, Winnipeg, MB, Canada Situation/Problem: TLVs® are not designed to be used as regulatory standards. They are to be used as guidelines by professional industrial hygienists while assessing health risks to chemicals. Simply meeting the legislated criteria (an adopted TLV®) may not protect all workers. One example of this is reproductive and fetal development susceptibility. This includes the health risks of the pregnant worker during fetal development and to workers who are trying to get pregnant. To meet professional obligations we must go beyond the legislated demands and meet the intent of the TLV® Committee. Resolution: Where the toxic effects of specific chemicals are known, determining the appropriate protective action to be taken is fairly straightforward. The industrial hygienist needs some guidelines in their repertoire for adjusting TLVs® for the pregnant worker when there is little to no reproductive and developmental toxicity data available. Results: This paper provides some guidance for meeting those demands. Topics include: The TLVs® that already protect against reproductive and developmental effects. There are TLVs® that protect workers against other health effects but are believed to be low enough to protect against reproductive effects. Where no data is available, there are safety factors, equations/models, or other sources of information that can be used to assist in assessing occupational exposures during pregnancy. Lessons Learned: Using the TLVs® as legislated criteria to be met does not always protect the worker. In order to adjust the TLVs® appropriately, a competent person/professional industrial hygienist is needed to do the research in order to find the best solution. CS-403-09 GHS Classifications for Diacetyl, 2,3-pentanedione, and Mixtures Containing These Chemicals R. Niemeier, A. Hubbs, K. Kreiss, NIOSH, Cincinnati, OH Situation/Problem: In 2012, OSHA revised the Hazard Communication Standard (HCS) to align with the United Nations Globally Harmonized System for Classification and Labelling (GHS) of chemicals. This revised HCS standard provides criteria for hazard classification, new label elements (pictograms, signal words, hazard statements, and precautionary statements), and a standardized safety data sheet (SDS) format. The previously available GHS classifications for diacetyl and 2,3-pentanedione do not reflect the hazard data available and presented in the soon to be finalized NIOSH criteria document, Occupational Exposure to Diacetyl and 2,3-Pentanedione. Resolution: Using the criteria outlined in the HCS, NIOSH has provided, for the first time for any substances, GHS classifications for diacetyl and 2,3-pentanedione. These classifications were based on the human health and animal toxicology data, and exposure monitoring data provided in the criteria document. Importantly, NIOSH also provided guidance for the classification and labeling of mixtures containing diacetyl and 2,3-pentanedione. Draft GHS classifications were published for peer and public review in early 2014. Results: Several GHS classifications were proposed for these chemicals, and NIOSH also demonstrated that exposures over the recommended exposure limits (RELs) for these chemicals could still occur if the cut-off values for mixtures in the GHS criteria were applied. NIOSH recommended that mixtures containing diacetyl or 2,3-pentanedione at any concentration that could generate vapors exceeding the NIOSH RELs should provide the necessary classifications on product labels and SDSs. Lessons Learned: GHS classifications that represent the current scientific understand of diacetyl and 2,3-pentanedione are important for the health protection of flavoring manufacturing workers. In addition, the incorporation of occupational exposure data should be considered when determining GHS classifications for hazardous chemicals that are present in mixtures. In the case of diacetyl and 2,3-pentanedione, the sole reliance on prescribed cut-off values for hazardous chemicals in mixtures would not have provided hazard communication guidance that was health protective for workers. SR-403-10 Polish Recommendation on OEL for Methotrexate M. Dobecka, S. Czerczak, Nofer Institut of Occupational Medicine, Łódz, Poland Objective: In 2013, The Group of Experts for Chemical Agents (GECA), working in the Nofer Institute of Occupational Medicine in Poland proposed a health based Maximum Admissible Concentrations value (MAC) for methotrexate (MTX). Methods: The limit value for methotrexate was based on the review of the recent global literature, databases, reports, and documentation of use of the substance as anticancer, antipsoriatic and RA drug. Results: To determine the MAC value for MTX, the following considerations were taken into account: methotrexate causes non-threshold genotoxic effects that can occur at any level of exposure; determination of the dose-response www.AIHce2015.org 85 curve is not possible on the basis of data in humans as well as by extrapolating the results of animal studies; and MTX manufacturers’ established MTX occupational exposure limits at the level of 0.0003 - 0.0025 mg/m3. Conclusions: Analysis of available literature data to assess the health risk showed that on the basis of the dangerous drugs classification (IPCS, NIOSH, ASHP, IACP) methotrexate should have a value of permissible occupational exposure level of <0.01 mg/m3. This value was taken as the basis for determining the MAC value and used arbitrarily uncertainty factor equal to 10, taking into account the effects of distant resulting from MTX (ie. genotoxicity and reproductive toxicity in humans), both fertility and development of the offspring. It is proposed to adopt a limit value for the inhalable fraction of methotrexate at the level of 0.001 mg/m3. Determination of the limit value in the work environment for MTX imposes on employers the obligation to monitor the concentration of the chemotherapeutic agent in the work environment and will allow the assessment of the actual exposure of medical staff to the substance. CS-403-11 Can Health and Safety and Art Co-exist? Integrating Health and Safety Practices at an Art Museum S. Deike, Art Gallery of Ontario, Toronto, ON, Canada Situation/Problem: Art museums share many standard hazards with other workplaces, such as toxic chemicals, materials handling and working at heights. But working with art, in its many forms, from traditional paintings and sculptures to modern and contemporary pieces featuring electronics or robotics, and even participative and performance art during special events, often presents unique challenges that require non-standard solutions. For example, substituting less toxic paints for conserving art may not be possible as they may not match the original work. Similarly, using a sling and hoist to move a delicate and valuable sculpture may not be prudent. Resolution: The successful integration of a health and safety program requires learning about the art museum environment, operations and business. It also requires identification and collaboration with key stakeholders, such as such as Curatorial, Conservation, Facilities, Protection Services and Finance departments, who have responsibilities for the art, building, visitors, and the business. Often materials, activities, and processes that may be problematic for health and safety reasons, may also be of concern to other departments and may be introduced by visitors. For example, permitting visitors to wear “skate shoes” in the gallery, could result in injuries, art damage and marked floors. However, banning them without providing notice or making temporary substitutes available may result in loss of revenue. Similarly, electronic cigarettes, could cause health issues for staff and visitors, could damage art, and could result in fires. Results: A checklist was developed by Health & Safety, Conservation and Facilities to assist other departments in flagging materials and activities that require further consideration. Training on health and safety in live performance and special events was provided. The Education department now hosts regular planning meetings to inform other departments of upcoming activities so issues can be raised and resolved well in advance. Lessons Learned: Art museums may require different solutions to common workplace hazards. Visitors often introduce hazards to the environment. By working collaboratively, it is often 86 AIHce 2015 | May 30 – June 4 | #AIHce possible to develop sound solutions that are acceptable to all Gallery departments as well as visitors. CS-403-12 Incorporation of Newer Risk Assessment Approaches into Occupational Exposure Limits for Chemicals: The Workplace Environmental Exposure Level (WEEL) Model M. Deveau, University of Ottawa, Ottawa, ON, Canada; P. Owens, Shell Oil Company, Martinez, CA; K. Still, Portland State University, Portland, OR; S. Barnett Bucherl, pH2, LLC, Indianapolis, IN Situation/Problem: Occupational Exposure Limits (OELs) exist for only a minor fraction of the chemicals in commerce. For chemicals with sufficient toxicological data to generate OELs, a small pool of experts limits the development of consensusbased values. Moreover, older OELs might not be based on recent data or risk assessment approaches. Resolution: The Occupational Alliance for Risk Science (OARS) Workplace Environmental Exposure Level (WEEL) committee has a goal of promoting worker health by developing credible OELs. OARS-WEEL activities include the development of new OELs for chemicals with limited exposure guidance, and the updating of existing—but potentially outdated—WEELs. Recent WEEL assessments have considered incorporation of more advanced risk assessment approaches, including benchmark dose (BMD) modeling, physiologically-based pharmacokinetic (PBPK) modeling, mode of action (MOA) analysis, quantitative cancer risk assessments, and identification of sensitizing compounds. Results: Many new or updated WEELs have been assessed, of which a few have been finalized and made publicly available. Recent assessments have considered BMD and PBPK modeling and MOA analysis. Moreover, formal guidance to supplement existing Administrative Operational Procedures are in various stages of development for these approaches and others, including low dose cancer assessments and identification of dermal and inhalation sensitizers. Because these approaches are more complex than those used in traditional OELdevelopment processes, each will be described within the context of proposed or finalized WEELs, to help industrial hygienists better understand the basis of newer WEEL values. Lessons Learned: Incorporation of more advanced risk assessment approaches into OELs can present challenges, as they can be more difficult to understand and apply than simpler traditional approaches. These approaches are not incorporated into all WEELs, due to data limitations or the absence of a specific need for some compounds; however, where they have been incorporated, they can increase confidence in the relevance of the WEEL to occupational exposure scenarios. Moving forward, finalizing formal guidance for each of the approaches should increase the consistency in their application in WEELs. The outcome of this work is expected to promote worker health through increased access to high quality OELs. SR-403-13 Airborne Concentrations of Naturally Occurring Diacetyl Associated with Various Coffee Products A. Abelmann, S. Gaffney, A. Urban, M. Liong, L. McCarthy, D. Hollins, Cardno ChemRisk, Chicago, IL; K. Unice, Cardno ChemRisk, Pittsburgh, PA; J. Henshaw, Cardno ChemRisk, Sanibel, FL; B. Finley, Cardno ChemRisk, Brooklyn, NY Objective: Recently, some scientists have suggested that occupational exposures to diacetyl in the food and flavoring industries have been associated with impaired respiratory function in some workers. Diacetyl also occurs naturally in various consumer products, including roasted coffee beans. Previously, we showed that large-scale coffee processing is associated with exposures to naturally occurring diacetyl that exceed various occupational exposure limits (OELs) recommended by the ACGIH and proposed by NIOSH. Exposures exceeded short-term OELs (0.020–0.025 ppm), however, it could be reasonably expected that 8-hr OELs (0.005–0.010 ppm) could be exceeded as well. Because there is a paucity of data for nonoccupational exposures related to handling or consuming coffee products, we conducted a series of studies to characterize the potential for various coffee products to release naturally occurring diacetyl in other settings. Methods: We conducted two separate laboratory tests to study the container headspace concentrations associated with 1) whole bean and ground coffee, and 2) brewed coffee. Samples for whole bean and ground coffee were collected from a static headspace concentration in a sealed syringe. For the second study, coffee was brewed in standard coffee maker, transferred to a stainless steel cup with a lid and sampling port, from which samples were extracted with a syringe. Two types of coffee were evaluated in each study: locally roasted, as well as a common product purchased at a supermarket. Results: The mean concentrations of diacetyl in the container headspace of whole bean, ground coffee, and brewed coffee were 2.7, 3.7, and 0.57 ppm, respectively. Coffee that was ground on site from whole beans was generally associated with higher concentrations of diacetyl. Conclusions: The measured container headspace concentrations compared well to the concentrations expected based on chemical partitioning analysis for typical naturally occurring diacetyl concentrations in coffee. The results of this series of studies, combined with results that have previously been published, indicate a potential for human exposure to naturally occurring diacetyl at levels that may exceed workplace OELs when coffee products are typically handled and consumed. Further research should be conducted to investigate magnitude of potential human exposures. SR-403-14 Pilot Study of Exposures to Airborne Concentrations of Naturally Occurring Diacetyl during Coffee Consumption L. Spicer, J. Lotter, C. Comerford, A. Abelmann, J. Pierce, Cardno ChemRisk, Chicago, IL; B. Finley, Cardno ChemRisk, Brooklyn, NY Objective: Over the past ten years, airborne exposures to diacetyl have been suspected by some scientists as being a possible cause of lung damage in workers in the food and flavoring manufacturing industry, where it was used as an additive. Although the Occupational Safety and Health Administration (OSHA) has yet to regulate diacetyl exposures, several occupational exposure limits (OELs) for diacetyl have been proposed or recommended. NIOSH proposed an eighthour time-weighted average (TWA) recommended exposure limit (REL) of 0.005 ppm, with a 15 minute short term exposure limit (STEL) of 0.025 ppm. Similarly, ACGIH adopted an eighthour TWA and 15 minute STEL Threshold Limit Values (TLVs) of 0.01 ppm and 0.02 ppm, respectively. Most recently, the European Commission published a draft diacetyl OEL of 0.02 ppm as an eight-hour TWA and 0.1 ppm as a 15-minute STEL. Diacetyl also occurs naturally in a variety of consumer products, including beverages such as tea, coffee, beer, wine, milk and citrus juices. Limited data exist describing consumer exposures to naturally occurring diacetyl in common food products. An exposure simulation study was conducted to characterize potential inhalation exposures to naturally occurring diacetyl as a result of coffee consumption in an at-home setting. Methods: Personal air samples were collected in the breathing zone of a subject during the grinding of whole, dark roast unflavored coffee beans and subsequent brewing and consumption of coffee. Two cups of coffee were consumed in 1 hour. Four short-term (15 minute) and two long-term (60 minute) samples were collected on the left and right sides of the study subject’s head. Additionally, one sample was collected in the headspace of a pot of freshly brewed coffee. Samples were analyzed for diacetyl in accordance with OSHA Method 1012. Results: The mean concentration of diacetyl based on 60-minute samples was 0.0015 ppm. The headspace concentration of the coffee pot was 0.12 ppm. All concentrations based on shortterm sampling were below the limit of detection (LOD) (<0.005 ppm). Conclusions: These findings indicate that proposed OELs are similar to, and may be lower than, the airborne concentrations of naturally occurring diacetyl associated with the handling and consumption of coffee. Additional research is warranted to better characterize these consumer and related occupational (e.g., coffee shop workers) exposures. PS404 Poster Session 4 Author Attend Time: Tuesday 1:00 p.m. - 3:00 p.m. *All posters are available for viewing in the expo hall from Monday 9:00 a.m. through Wednesday 1:00 p.m. SR-404-01 Study on Generation Characteristics of Powder By-products for Novel Etching Process in the Semiconductor Manufacturing Industry H. An, K. Choi, D. Kim, Samsung Electronics, Yong-in, Republic of Korea Objective: Etching gases are the halogen compounds such as HBr, Cl2, CF4, BCl3, and NF3 mainly used for the chemical reaction; the by-product also depends on the etching target substances. Since the trend in recent years of new target materials can be applied it is necessary to check by-product according to the change of the etching material. BSI (Backside Illuminated Image Sensor) is the new product with the backside of the wafer being used tungsten (W), titanium (Ti) and the like, is applied at least 6-10 times thicker than the conventional. Therefore, the focus of this study is to verify the change in the hazard of new process equipment of BSI to verify by-products generated in addition to etch gas. www.AIHce2015.org 87 Methods: The equipment studied are new process units of etching tungsten & titanium compounds and the material of the conventional silicon, the same model. By-product particles were collected from the inner part materials and air sampling during preventive maintenance of process equipment. The chemical composition of by-products was determined by field emission scanning electron microscopy (FE-SEM) equipped with energy dispersive spectroscopy (EDS) respectively. Results: At the inner part materials, the particle compounds found were aluminum (Al), fluorine (F), titanium (Ti) and were expected, such as Titanium fluoride (TiF4), Aluminum chloride (AlCl3), aluminum oxide (Al2O3), titanium dioxide (TiO2). There was no big difference between the new and existing process equipment, in the case of area samples with personal air sampler except for the environmental component. In the new process equipment oxygen (O), silicon (Si), chromium (Cr), chlorine (Cl) were generated; additionally an aluminum (Al), iron (Fe), bromine (Br) were also generated in the conventional process equipment. Conclusions: From the results of SEM-EDS analysis, other types of by-products occur in the new process equipment to produce BSI. For example, tungsten hexafluoride (WF6) is generated by the chemical reaction with tungsten and nitrogen trifluoride (NF3). This material is expected by adsorption on the chamber side wall after reaction with titanium (Ti). In summary, it would be demonstrated that by-products generated not from etch gases but target materials. Also, we figured out those titanium (Ti) by-products were not scattered in to the air. The present study elucidated the hazard characteristics such as chemical composition from by-products considering target materials. CS-404-02 Bring Back the Impinger D. Duffy, ESIS, Inc., Chicago, IL Situation/Problem: Impingers were the gold standard devices for evaluating exposures and conducting area air monitoring for various inorganic acids, as well as compounds such as acetic acid, methanol, formaldehyde, hydrogen peroxide and others. We all agree that the use of impingers was cumbersome, difficult for the monitored employee and as CIH consultants, we were anxious to find a substitute for the impinger. Now, due to safety and security issues for travel, transporting impinger solutions and liquid samples has added to the difficulty. Since the days when impinger use was common, new media has been developed, including solid sorbent tubes, treated filters and passive monitoring badges, all with the purpose of making life easier for the CIH. At issue and as discussed in this poster, is whether we have sacrificed accuracy for convenience. In many instances, we were not finding significant contaminant concentrations with the use of solid sorbet media in relation to visual observations and employee concerns that suggested that higher exposure levels may be present. Resolution: To address this issue, we decided to conduct sideby-side exposure monitoring using impingers and the current and accepted “non-impinger” monitoring method. A portion of the side-by-side air samples were collected in the industrial environment(s) and a portion in the laboratory. We also decided to begin this study by conducting side-by-side monitoring for a variety of industrial chemicals as opposed to one group, such as inorganic acids. Results: The use of impingers for many of our samples showed higher contaminant concentrations, and at least preliminarily, 88 AIHce 2015 | May 30 – June 4 | #AIHce suggest that lower recovery and detection were observed on solid media that was used for comparison. Particle size of the contaminant and the presence of water vapor both can affect recovery on treated filters and on solid sorbent media, especially silica gel tubes. Side-by-side testing will be presented. Lessons Learned: Solid sorbent tubes, passive monitors and treated filters have replaced the impinging devices for exposure monitoring. Our data suggest that this replacement, while making the job of the CIH easier, may not be accurately assessing employee exposures and area air contaminant levels. It may be time to re-evaluate the need for impingers, and for some chemicals, to develop more user-friendly impinging devices. CS-404-03 Sampling for Peak/IDLH Exposures Using Field Portable GC/MS and Laboratory GC/MS to Investigate and Characterize Chemical Exposure D. Pearce, J. Hill, P. Smith, OSHA, Sandy, UT Situation/Problem: Occupational sampling for an organic chemical of interest is usually performed by taking samples on activated charcoal tubes. Samples that are collected for 15 minutes, when an exposure is only a few seconds to minutes, may produce low to not-detected results even when an exposure may have exceeded a peak or IDLH value. Resolution: This project looked at headspace and personal sampling of tank gauging in the oil and gas industry. Nearly instantaneous sampling was performed at several locations by using a vacuum box to capture air into an aluminized gas bag. Samples were collected at tank openings and personal samples were collected from employee breathing zones. A field portable gas chromatograph mass spectrometer using needle trap with tri-bed sorbent and thermal desorption was used to qualitatively characterize these samples in the field. Then the hydrocarbons from the bag were stabilized on replicate charcoal tubes for quantitative analysis in the laboratory by GC/FID and GC/MS using carbon disulfide extraction. Samples of bulk crude oil were also collected for comparison. Results: Several sites were characterized. Coconut shell charcoal tube sample results for most of the sites were essentially non-detects. However one sampled site (synthetic charcoal) had significant findings for the headspace sample and lower results for the personal air samples. All of the bulk samples gave similar results for C3-C20 hydrocarbons. Correlation of the field portable GC/MS results and the lab analyses showed good qualitative agreement. Quantitation was performed on 12 C5-C7 hydrocarbon solvent analytes. These analytes combined to produce bulk concentrations between 7–12%, headspace between 10,000-15,700 ppm, and personal between 0-1,500 ppm. Lessons Learned: Exposure assessment for Peak and IDLH situations using a bag to collect instantaneous samples and either immediate analysis or stabilization to a sorbent tube can be a useful technique. Using field portable GC/MS to characterize a site can help determine what type of samples to collect showing that in this case light C3-C7 hydrocarbons should be characterized. Synthetic and coconut shell charcoal tubes do not retain propane and butane as desired. Even though the transfer from the bag to the tube passed 0.5 liter, significant breakthrough was observed on charcoal tubes when analytes were present in high concentrations. CS-404-04 An Evaluation of a Quantitative X-ray Diffraction Method for Analysis of Asbestos-Containing Materials L. Greene, J. Ennis, W. Winstead, RTI International, Research Triangle Park, NC Situation/Problem: The use of appropriate test methods to identify and quantify asbestos in bulk samples is critical to ensure the best decisions may be made to protect human health. Although polarized light microscopy (PLM) is widely accepted in North America and Europe as the standard analysis method for bulk asbestos, powder X-ray diffraction (XRD) is also a useful tool for asbestos analysis. In the United States, XRD is included as a complement to PLM in the Environmental Protection Agency’s 1993 Method for the Determination of Asbestos in Bulk Building Materials. XRD is limited, however, by potential interferences from components commonly found in bulk building materials and may not be able to achieve a detection limit low enough to identify asbestos at or near 1% in all bulk samples. Resolution: A quantitative XRD method was developed for the determination of asbestos in bulk materials. This standard additions method differs from the internal standard method outlined in the 1993 EPA test method. Powder mixtures of known composition were used for preliminary evaluation of the method. Both the method and the sample preparation techniques used to remove matrix interferences were further refined in routine use of XRD for the characterization of “real-world” materials used as proficiency testing materials. Results: Analysis of formulated mixtures of known composition indicates that the XRD method has good weight composition accuracy and precision, with a detection limit approaching 1% or even lower. Matrix interferences challenge application of the method to complex real-world materials in which there is peak overlap. However, judicious application of gravimetric sample reduction techniques greatly enhances the method’s ability to quantify asbestos at low levels in many real-world materials. Lessons Learned: The successful application of quantitative powder XRD to bulk asbestos analysis is sample-dependent. Method limitations include potential matrix interferences and the inability to differentiate between fibrous and nonfibrous analogs. When both fibrous and nonfibrous mineral forms occur in one sample, the presence of the nonfibrous component hampers quantitation of the fibrous component by XRD. XRD may be most effective as a complement and confirmation to microscopy techniques, such as visual estimation, that are subjectively dependent on analyst training and experience. SR-404-05 Comparison of the Standard and Dark-Medium Objective Lens in Counting Asbestos Fibers by PhaseContrast Microscopy E. Lee, J. Nelson, M. Kashon, M. Harper, NIOSH, Morgantown, WV Objective: A Japanese round-robin (RR) study revealed that the analysts who used a dark-medium (DM) objective lens reported higher fiber counts of Proficiency Analytical Testing (PAT) chrysotile samples than those with a standard objective lens but no causes of such differences were investigated. The purpose of this study was to determine the major sources of the differences of fiber counts between two objective lens types by performing two sets of RR studies. Methods: For the first RR study, 15 proficiency test sample filters (five each of chrysotile and Amosite generated by water-suspended method and five chrysotile generated by aerosolization method) were purchased from the American Industrial Hygiene Association (AIHA) and slides were prepared with relocatable cover slips. Nine labs volunteered to participate in the exercise. A single microscope with both standard and DM objectives was circulated to each laboratory along with the prepared slides. A second RR study was then performed with six chrysotile field sample slides. Six out of nine labs who participated in the first RR study participated. Additionally, an 8-form diatom test slide was examined by eight analysts to compare resolutions between two objectives. Results: For the PAT chrysotile reference slides, use of the DM objective resulted in consistently higher fiber counts (1.45 times for all data) than the standard objective (p-values: < 0.05), regardless of the filter generation (water-suspension or aerosol) method. For the PAT Amosite and chrysotile field sample slides, the fiber counts between the two objectives were not significantly different. There was no differences of resolution from the 8-form diatom test slide examination. Conclusions: The findings support the contrast caused by the different phase plate absorption between the two objectives as the main factor affecting high number of PAT chrysotile fiber counts using the DM objective. The chrysotile fibers in the PAT samples are thinner than the airborne contaminant fibers collected from the field. If the thin PAT fibers are not generally representative of field samples, it is not necessary to recommend the DM objective be used for routine fiber-counting. However, the DM objective does allow more very fine fibers to be counted and may provide counts of those fine fibers, if present, similar to that achievable with an electron microscope. SR-404-06 Development of Analytical Methods as a Tool for Checking Compliance with Newly Established OELs in Poland J. Gromiec, S. Brzeznicki, M. Bonczarowska, A. Wziatek, Nofer Institute of Occupational Medicine, Lodz, Poland Objective: In Poland Occupational Exposure Limits are called Maximum Admissible Concentrations (MAC) and are published by the Minister of Labour and Social Policy (based on documented proposals from the Interdepartmental Commission for MACs for Agents Harmful to Health in the Work Environment) and are legally binding. There is a practice that no MAC values are published unless the appropriate analytical method is available enabling determination of compliance. The objective of the project was to develop analytical methods for 2-ethylhexyl acrylate, methoxyaniline, cyclopentane and diphenylamine introduced to the MAC list in 2013–2014. Methods: Parameters of air sample collection (sorbent selection, air volume, sampling rate, desorption efficiency) and analytical conditions were investigated. Validation parameters, required according to the European standard EN 482:2012 such as limit of detection, analytical range, precision, specificity and expanded uncertainty were also determined. Gas chromatography and high performance liquid chromatography were used in analysis of the compounds. Results: Four analytical methods, meeting the criteria of EN 482:2012 were elaborated. The limits of determination are, in mg/m3, 3 for 2-ethylhexyl acrylate, 0.025 for isomers of methoxyaniline, 30 for cyclopentane and 0.4 for diphenylamine. www.AIHce2015.org 89 The expanded uncertainty of all the methods is much better than ± 30%. Conclusions: The developed methods were presented in the form analytical procedures meeting the requirements of the Polish Standardization Committee for the national standards. The methods, as specific and selective in presence of other substances expected in the same work environment enable evaluation of occupational exposure to the compounds newly introduced to the MAC list. SR-404-07 The Second Report of Studies of Passive Sampler Equipped with FAN Motor for Indoor Sampling of Nicotine Y. Suzuki, T. Enomoto, T. Enomoto, SIBATA Science Technology Ltd., Saitama, Japan; M. Noguchi, Seikei University, Musashino, Japan; Y. Yanagisawa, Tokyo Universtiy, Bunkyo ku, Japan Objective: We examined whether or not, the diffusive sampler system for measurement of Nicotine in the air, will work efficiently. For passive sampling, Nicotine is one of objectives that substance measurements are difficult. This is because the Nicotine situation turns into gaseous, particulate, air oxidation, UV degradation, water absorption, dimer formation and so forth. It is also because this material causes adsorption (such as particle adhesion, adhesion to glass). Our study is to solve these problems. Methods: In this study, we used the Semi-Active Sampler that we had reported in AIHce2014. At Nicotine trapping, we adopted a method of adsorbing to a PUF (Poly-Urethane Form). Herewith we carried out efficient collection by increasing the equilibrium velocity. The PUF can collect the Nicotine in a stable situation. Semi-Active Sampler is superior in serenity compared with the active collection. In recovery rate measurement of Nicotine, it was confirmed by the sampling performance. After adding Nicotine to the PUF directly, it is operated in clean air for a certain time, and the recovery rate superiority was confirmed by GC / MS (EI) with a solvent extraction adsorbent. The sampling was carried out in parallel with this method and with XAD-4 active sampling method in the smoking location. Results: The spike recovery rates showed at about the percentages of 55. In 24-hour collection, the results were higher values even in comparison with the active method (XAD-4 collected). For the pump method, Semi-Active Sampler showed good correlation in Nicotine sampling results. However, a fluctuation was observed in the measured value in such state where smoke flux was drawn significantly. In addition, the results with this present measurement method showed a good correlation with those with a measurement of dust meter of light scattering method. Conclusions: Nicotine Collection, using the PUF adsorbent, with Semi-Active Sampler turned out possible. However, we observed the fluctuation of a significantly higher value than the expectation in non-mixed state (such as near a smoking area) and we also observed the necessity of further consideration in the future. We would like to consider such substance as SVOC in the future. 90 AIHce 2015 | May 30 – June 4 | #AIHce CS-404-08 Using Gas Chromatography Mass Spectrometry in Single Ion Monitoring Mode for Analysis of Diacetyl and 2,3-Pentanedione M. Simmons, USDOL/OSHA, Sandy, UT Situation/Problem: OSHA is currently using OSHA Method 1013 for the sampling and analysis of diacetyl and OSHA Method 1016 for 2,3-pentanedione. Both methods use gas chromatography with flame ionization detection (GC/FID) for analysis. OSHA is also using OHSA Method 1012 for the sampling and analysis of diacetyl, with analysis by gas chromatography with electron capture detection (GC/ECD) after derivatization with O-pentafluorobenzyl hydroxylamine hydrochloride. All three methods use two 600 mg silica gel sorbent tubes in series, have recommended sampling times of 3 hours (9 L), and use ethanol for sample extraction. The advantage of methods 1013 and 1016 is sample preparation can be performed in one hour, but the reliable quantitation limit (RQL) is 41.0 µg/m3 for diacetyl and 38.0 µg/m3 for 2,3-pentanedione. The advantage of Method 1012 is that the RQL is 4.6 µg/m3 for diacetyl, but the derivatization procedure requires 36 hours with multiple derivatives of diacetyl (isomers) formed. Resolution: Using OSHA “Validation Guidelines for Air Sampling Methods Utilizing Chromatographic Analysis”, the sample preparation procedure described in OSHA Method 1013 and 1016, and gas chromatography mass spectrometry in single ion monitoring mode (GC/MS-SIM), new RQLs were determined for diacetyl and 2,3-pentanedione. Results: A RQL of 11 µg/m3 was calculated for both diacetyl and 2,3-pentanedione using GC/MS-SIM. Lessons Learned: The use of GC/MS-SIM improved the RQL for both diacetyl and 2,3-pentanedione as compared to the GC/FID methods, and brought the diacetyl RQL closer to the reported value of the GC/ECD method while avoiding the time consuming derivatization step. SR-404-09 Validation of a Diffusive Sampler for Monitoring Siloxanes in Air J. Elder, SKC, Inc., Eighty Four, PA Objective: Siloxanes are a family of organic compounds that are used widely in the production of silicone polymers and other organosilicone substances, electronics, textiles, and personal care products. Siloxanes are found commonly in landfills where they can be volatilized easily. Some toxicology studies report effects on the liver, kidney, and female reproductive tract. Studies to date have not demonstrated if this effect occurs through a pathway that is relevant to humans. The objective of this study was to determine if the 575-001 Passive Sampler is suitable for monitoring octamethylcyclotetrasiloxane (D4) in air. Methods: The method used to collect D4 was a 575-001 Passive Sampler filled with activated carbon and analysis was by GC-FID. The test concentration was 20 ppm for D4, at a relative humidity of 80% and a temperature of 30 C. Desorption efficiency studies were performed for D4 at 0.1 to 2.0 times the WEEL (Workplace Environmental Exposure Level) limit of 10 ppm. A storage study was conducted for 2 weeks at room temperature (22 C) and refrigerated temperature (< 4 C). Results: The results showed that the mean sampling rate for D4 was 7.16 ml/min with an 8.38% Relative Standard Deviation (%RSD). The desorption efficiency (DE) was 87.2% with a 4.96% RSD. The storage study showed that the sample could be stored for up to 2 weeks at either ambient or freezer temperatures with less than a 10% loss in recovery. Conclusions: In conclusion, the data indicate that diffusive sampling is a viable method for sampling D4 in workplace air. www.AIHce2015.org 91 92 AIHce 2015 | May 30 – June 4 | #AIHce Author Index A Abelmann, A. SR-403-13, SR-403-14, SR-118-03 Abraham, J. SR-402-11 Ahrenholz, S. CS-402-13 Aizenberg, V. CS-104-01 Akbar-Khanzadeh, F. SR-104-05, SR402-15, SR-402-07, CS-114-01 Albrecht, B. SR-128-03, SR-128-01 Alkasir, R. SR-127-05 Altamirano, C. CS-111-06 Ames, A. SR-402-15, SR-402-07, CS114-01 An, H. SR-404-01 Anderson, D. CS-115-05 Anderson, G. SR-402-02 Anderson, L. CS-110-02 Andreescu, S. SR-127-05 Andrews, D. SR-113-03 Arce, S. SR-119-04 Archer, J. SR-102-02 Arnold, S. SR-119-04, SR-119-02, SR119-06, SR-119-05 Arrotti, G. CS-107-04 Aubin, S. SR-127-12 Austin, M. CS-114-04 Avens, H. SR-119-03 B Balanay, J. SR-107-07 Bardhan, R. SR-114-06 Barlow, C. SR-119-03, SR-402-02 Barnett Bucherl, S. CS-403-12 Barrey, E. SR-128-06 Barton, C. CS-107-06 Barton, T. SR-115-03 Baxter, D. CS-117-06, CS-111-01 Beard, S. CS-107-08 Beauparlant, M. SR-127-01 Beck, B. SR-401-09 Beltz, J. SR-122-02 Bergholz, P. CS-105-05, CS-118-05 Bergman, M. SR-122-06, SR-122-05, SR116-04 Bernard, T. SR-121-03 Bernhardt, S. SR-111-03 Beyer, L. SR-401-09 Birky, B. SR-128-08 Boelter, F. CS-103-01, CS-124-05, CS103-03 Boiano, J. SR-402-05, SR-402-06 Bonczarowska, M. SR-404-06 Boot, K. CS-108-01 Brandes, A. SR-123-05 Bratt, G. CS-124-01 Breuer, D. SR-128-10 Breysse, J. SR-118-09 Brinton, M. CS-102-04 Brosseau, L. SR-116-02 Brown, J. SR-128-06 Brown, K. SR-123-05 Brzeznicki, S. SR-404-06 Bullock, W. CS-103-03 Burge, H. SR-112-04, SR-112-05 Burns, A. SR-119-03 Burton, K. SR-116-05 Buttolph, T. CS-115-04 Byeon, S. SR-124-02 C Cali, S. SR-118-09 Callahan, J. CS-106-08 Canary, J. SR-104-04 Canright, M. CS-112-06 Capshaw, Z. SR-402-02 Capuzzi, J. SR-401-13 Caraccio, A. SR-102-05 Carter, B. SR-118-10 Cena, L. SR-401-01 Chang, C. SR-402-10, SR-127-08, SR402-10, SR-127-08, SR-127-10, SR127-10 Chen, B. SR-401-01 Chen, C. SR-112-01, SR-127-10, SR-11702, SR-120-01, SR-117-05, SR-401-02 Chen, W. SR-118-11 Chen, Y. SR-120-02 Cheng, H. SR-117-05 Chien, C. SR-128-08 Chisholm, W. SR-401-01, SR-128-02 Choi, K. SR-404-01 Chute, D. CS-105-06 Cikalo, J. CS-105-01 Clarkson, D. SR-118-09 Clements, L. CS-118-05 Collingwood, S. SR-111-03 Comerford, C. SR-403-14 Courtney, T. SR-113-01 Crawford, J. SR-402-11 Cross, J. SR-121-06 Croteau, G. SR-104-03 Cui, X. SR-403-04 Cumpston, A. SR-401-01 Czerczak, S. SR-403-10 D Dartt, A. CS-110-02 Davis, C. CS-115-02 DeBord, D. CS-123-01 Deike, S. CS-403-11 Delia, A. CS-111-01 Derman, S. SR-114-03 Desai, G. CS-118-02 Dessureault, P. CS-108-06 Deveau, M. CS-403-12 Deziel, N. SR-403-02 Dixon, S. SR-118-09 Dobecka, M. SR-403-10 Dotson, G. CS-124-03 Doughty, J. CS-115-06 Doyle, C. CS-118-05 Dragan, G. SR-128-10 Drews, B. CS-127-02 Driscoll, D. CS-109-07 Driscoll, J. SR-123-03 Drolet, D. CS-108-06 DuBose, W. SR-109-08 Duffy, D. CS-404-02 Duke, T. SR-403-01 Duling, M. SR-111-05 Dunn, K. CS-122-01 Dysart, A. SR-122-02 E Eggett, D. SR-111-03 Elder, J. SR-404-09 Elias, J. CS-403-08 Elmashae, Y. SR-401-05, SR-116-03 Engler, J. SR-117-03 Ennis, J. CS-404-04 Enomoto, T. SR-404-07 Evans, CIH, CSP, P.E., S. CS-102-06 F Fabian, P. CS-103-02 Farcas, D. SR-128-02 Finley, B. SR-403-13, SR-403-14, SR118-03, SR-403-01 Floyd, E. SR-120-06, SR-127-06, SR-12204 Fontaine, B. CS-104-09 Friedman, W. CS-102-01 Friedrich, C. SR-128-10 Friesen, M. SR-118-12, SR-403-02 Frisvad, J. SR-112-03 www.AIHce2015.org 93 G Gaffney, S. SR-403-13, SR-118-03 Gallagher, S. CS-113-05, SR-113-02 Gallagher, T. CS-109-06 Gao, P. SR-125-03 Gao, S. SR-116-03, SR-401-05 Gay, R. SR-118-10 Gibbs, L. CS-115-01 Gibson, S. CS-113-05 Gilbertson, L. SR-109-03, SR-402-16 Gillen, M. CS-105-02 Glowacki, J. CS-128-07 Glynn, M. SR-118-03 Goldberg, M. CS-105-04 Gorny, R. SR-112-02 Graham, G. CS-109-05 Greenawald, L. SR-101-03 Greenberg, G. SR-401-09 Greene, L. CS-404-04 Greenley, P. CS-115-06 Grespin, M. SR-118-04 Grinshpun, S. SR-116-03, SR-401-05 Gromiec, J. SR-404-06 Gunderson, K. CS-126-05 Hung, H. SR-117-02 Hunt, A. SR-402-11 Huynh, T. SR-119-01 Hwang, J. SR-118-12 I Iheanacho, I. SR-121-03 Imler, A. SR-102-02 Irwin, C. CS-127-09 J Jacobs, D. SR-118-09 Jaques, P. SR-125-03 Johansen, D. SR-128-03, SR-128-01 Johnson, C. SR-118-12 Johnson, R. CS-108-02 Johnston, J. SR-111-03 Jones, A. SR-116-05 Jones, W. CS-118-06 Jouras, A. CS-114-05 Joy, G. CS-104-02 jung, H. SR-402-08 Jurjevic, Z. SR-112-03 H K Haan, M. CS-110-04 Hagood, T. SR-402-15 Halpenny, M. SR-128-06 Ham, M. SR-124-02 Han, C. SR-122-03 Haroun, L. CS-121-01 Harper, M. SR-401-08, SR-404-05, SR128-04, SR-128-02, SR-126-02 Harper, P. CS-106-04 Haury, C. CS-102-03 Hawkinson, T. CS-108-07 He, X. SR-116-03, SR-401-05, SR-12206, SR-122-05 Heaney, M. CS-402-09 Heath, R. SR-114-06 Henn, S. SR-402-05 Henshaw, J. SR-403-13, SR-119-03, SR118-03 Herrick, D. CS-115-06 Higley, R. CS-402-14 Hill, J. CS-123-04, CS-404-03 Hoang, T. SR-120-06 Hollins, D. SR-403-13 hong, J. SR-402-08 Hoover, M. CS-123-01 Horvatin, M. SR-122-06, SR-122-05 Hsu, C. SR-117-02, SR-117-05, SR-12002 Hsu, E. SR-402-02 Hsu, Y. SR-128-08 Huang, S. SR-112-01, SR-127-10, SR117-02, SR-120-01, SR-117-05 Huang, X. SR-122-03 Huard, M. SR-127-12 Hubbard, D. SR-109-09 Hubbs, A. CS-403-09 Kalil, A. CS-115-06 Kampa, O. CS-107-01 Kashon, M. SR-401-08, SR-404-05, SR128-04 Kawar, K. CS-107-03 Kayne, A. CS-125-02 Ke, W. SR-112-01, SR-120-01 Keane, M. SR-401-01 Ketzler, N. CS-113-05 Kim, C. SR-401-04 Kim, D. SR-404-01, SR-402-08 Kim, J. SR-116-03, SR-401-05 Kim, K. SR-401-04, SR-402-08 Kim, M. SR-124-02 Kind, J. CS-106-08 Ko, H. SR-401-04 Koehler, K. SR-109-04 Koehn, J. CS-402-12, CS-401-07 Koh, D. SR-403-02 Kominsky, J. SR-114-02, SR-111-04 Komrower, J. CS-109-06 Kondragunta, P. CS-106-06 Korchevskiy, A. SR-103-04, SR-124-06 Korczynski, R. CS-118-07 Kovein, R. SR-123-05 Kreiss, K. CS-403-09 Kuo, Y. SR-112-01, SR-117-02, SR-12001 94 AIHce 2015 | May 30 – June 4 | #AIHce L L’Espérance, G. SR-127-01 L’Orange, C. SR-117-04 Labossiere, J. CS-115-04 LaGarde, D. SR-127-07, CS-128-05 Lai, C. SR-401-02 Lai, J. SR-127-10, SR-117-02, SR-12001, SR-117-05 Lake, K. SR-109-04 Lamba, A. CS-124-04 Larson, R. SR-120-04 Lavoué, J. SR-118-12 Lawniczek-Walczyk, A. SR-112-02 Le, M. SR-118-04 LeBouf, R. SR-111-05 Lee, D. CS-110-06 Lee, E. SR-404-05 Lee, J. SR-124-02 Lee, N. CS-106-07 Lee, T. SR-401-08, SR-128-04, SR-12802 Lee, V. SR-109-08, SR-120-05 Lentz, T. CS-107-06 Lieb, C. SR-117-03 Light, E. SR-118-10 Lin, C. SR-112-01, SR-127-10 Lin, M. SR-120-02 Lin, T. SR-113-01 Lin, Y. CS-107-06 Liong, M. SR-403-13, SR-118-03 Liu, S. SR-120-03 Liu, Y. SR-110-05, SR-403-03 Locas, L. SR-127-12 Locke, S. SR-118-12, SR-403-02 Lombardi, D. SR-113-01 Lotter, J. SR-403-14, SR-118-03 Lowe, B. SR-113-03 Lungu, C. SR-107-07, SR-114-06, SR127-06, SR-122-04 Luttrell, W. SR-127-04 Lutz, E. SR-125-07, SR-121-04, SR-12102, SR-120-05, SR-109-08 M Maclachlan, J. SR-123-03 Mader, B. SR-128-09 Madl, A. SR-119-03 Magnusson, B. SR-111-03 Maier, A. CS-107-06 Malinsky, M. SR-128-09 Manning, C. SR-101-01 Mao, I. SR-402-01 Maples, E. SR-114-06 Martin, J. SR-127-01 Martin, K. CS-111-01 Martinelli, J. CS-112-06 Martinez, K. CS-107-05 Mathew, T. SR-106-01 Mbah, W. CS-115-06 McCarthy, L. SR-403-13, SR-118-03 McDonough, V. CS-103-05 McGowan, B. CS-113-06 McKelvey, L. CS-402-12, CS-401-07 McKernan, L. CS-107-06 McNamara, K. SR-118-08 Mead, K. SR-123-05 Mecham, J. CS-107-01 Meeker, J. SR-105-03 Mehta, M. CS-126-06 Mellas-Hulett, E. CS-115-04 Melnikov, F. SR-401-09 Miller-lionberg, D. SR-117-04 Milz, S. SR-402-15, SR-402-07, CS-11401 Mims, A. CS-115-02 Monje, O. SR-102-05 Monnot, A. SR-118-04 Morris, T. CS-121-05, CS-106-02 Mugford, C. SR-105-07 Myers, K. SR-125-07 N Neitzel, R. SR-402-17 Nelson, A. SR-126-01 Nelson, J. SR-404-05 Nesbitt, J. CS-114-04 Newell, S. CS-126-04 Newton, R. CS-401-10 Ngai, E. CS-107-06 Niemeier, R. CS-403-09, CS-124-03, CS402-13 Niezgoda, G. SR-116-04 Noguchi, M. SR-404-07 Nurkiewicz, T. SR-111-05 O O’Heir, L. CS-127-02 O’Shaughnessy, P. SR-116-01 Oh, J. SR-127-06, SR-122-04 Ornstein, A. CS-124-01 Owens, P. SR-402-03, CS-403-12 P Pahler, L. SR-120-04 Palmiero, A. SR-116-04 Paradis, S. SR-127-12 Parham, M. SR-101-04 Parker, J. SR-116-06, SR-101-02 Paschold, H. CS-108-04 Paustenbach, D. SR-119-03 Pearce, D. CS-123-04, CS-404-03 Pelham, T. SR-125-05, SR-125-04 Persky, J. CS-103-01, CS-124-05, CS103-03, CS-121-01 Peterson, S. SR-112-03 Phalen, R. SR-125-05, SR-125-04 Philips, M. SR-104-04 Pierce, J. SR-403-14, SR-118-03, SR403-01 Pizzani, S. CS-107-02 Plisko, M. CS-103-02 Podraza, D. CS-103-03 Pol, V. SR-122-02 Portnoff, L. SR-125-03 Pratap, P. SR-118-09 Prugh, R. CS-127-11 Q Quarles, B. SR-101-01 Quick, H. SR-119-01 Quinn, C. SR-117-04 Quiroz, O. SR-121-04 R Racz, L. CS-103-05 Ramachandran, G. SR-119-01, SR-11904, SR-119-02, SR-119-06, SR-119-05 Rando, R. SR-118-01 Rasmuson, E. SR-103-04, SR-124-06 Rasmuson, J. SR-103-04, SR-124-06 Redlich, C. SR-110-05 Reed, E. CS-401-10 Reed, R. SR-125-07, SR-121-04, SR-12102, SR-120-05, SR-109-08 Reineke, A. CS-403-08 René, L. SR-127-12 Reponen, T. SR-116-03, SR-401-05 Richard, M. SR-114-06 Robbins, W. SR-118-08 Roberts, B. SR-402-17 Roberts, L. SR-403-01 Roberts, R. SR-402-15 Roggli, V. SR-124-06 Rohr Daniel, A. CS-106-04 Rohrs, S. SR-402-07 Rollins, M. CS-108-08 Rosen, J. CS-107-08 Rosenbaum, P. SR-402-11 Rossner, A. SR-127-05, SR-111-02 Rottersman, R. CS-106-03 Ruestow, P. SR-403-01 Rundman, S. CS-110-01 Russ, D. SR-118-12 Ryan, T. SR-109-09 S Sachdeva, S. CS-107-06 Sahmel, J. SR-119-03, CS-108-06 Saina, M. SR-122-04 Sanchez, M. SR-103-04 Savit, M. SR-121-02 Schmick, E. CS-125-01 Schneider, S. CS-105-02, CS-109-01 Schnorr, B. CS-103-01, CS-124-05 Schultz, M. SR-126-01 Scott, P. SR-119-03 Scribner, K. CS-106-08 Seals, C. CS-113-05 Seaton, M. CS-107-06 Seeley, M. SR-401-09 Selwyn, B. CS-109-02 Sesek, R. CS-113-05 Shao, Y. SR-119-04 Sharma, A. CS-126-06 Shaw, P. SR-123-05 Shi, T. SR-402-04 Shimelis, O. SR-128-06 Shin, K. SR-402-08 Shin, S. SR-124-02 Shoop, D. SR-125-06 Shou, L. SR-128-08 Shulenberger, C. CS-113-04 Shum, M. SR-108-03 Sides, S. CS-110-02 Sietsema, M. SR-116-02 Silva, T. CS-103-06 Simmons, M. CS-404-08 Slagley, J. SR-117-03 Sleeth, D. SR-120-04 Smigielski, K. SR-104-05 Smith, P. SR-123-02, CS-123-04, CS404-03 Song, S. CS-103-01, CS-124-05 Soo, J. SR-128-04, SR-128-02 Sparer, J. SR-110-05 Spencer, J. CS-103-02 Spicer, L. SR-403-14 Squillace, M. CS-114-04 Steege, A. SR-402-05, SR-402-06 Steele, K. SR-125-05, SR-125-04 Stefaniak, A. SR-111-05 Stein, D. CS-101-05 Stephenson, D. SR-106-05 Still, K. CS-403-12 Stobnicka, A. SR-112-02 Stowe, M. SR-110-05 Su, W. SR-117-01 Susi, P. SR-105-03, CS-105-04 Suzuki, Y. SR-404-07 Sweeney, M. SR-402-06 T Thakali, S. SR-401-09 Theodore, A. SR-128-08 Thomas, R. CS-113-05 Tobin, M. SR-118-09 Torres CIH, CSP, C. CS-106-04 Tsai, P. SR-120-02, SR-401-02 Tsai, S. SR-402-10, SR-127-03, SR-12708, SR-122-03, SR-122-02 Tseng, W. SR-402-10, SR-127-03 U Unice, K. SR-403-13, SR-119-03 Urban, A. SR-403-13 V Valigosky, M. SR-402-15, SR-402-07, CS114-01 Verma, S. SR-113-01 Vo, E. SR-122-06, SR-122-05 Volckens, J. SR-109-04, SR-117-04 Voorhees, R. SR-123-05 Vosburgh, D. SR-109-03, SR-402-16 www.AIHce2015.org 95 W Y Z Wang, C. SR-120-02 Wang, H. SR-109-04 Wang, J. SR-120-06 Ward, R. SR-118-04 Weber, D. CS-401-03, CS-401-06 Weible, R. SR-125-03 Weinstein, M. CS-105-04 Weir, P. SR-113-03 [email protected], SR-123-06 Westrum, D. CS-108-05 Whitelaw, J. SR-116-05 Wiggins, M. CS-104-06, CS-401-11 Williams, P. SR-403-06 Williams, S. CS-103-05 Wills, R. CS-106-04 Winstead, W. CS-404-04 Woodhull, D. CS-126-04 Woskie, S. SR-105-07 Wu, C. SR-128-08 Wu, J. SR-127-10 Wu, W. SR-112-01 Wziatek, A. SR-404-06 YANAGISAWA, Y. SR-404-07 Yasalonis, J. CS-124-01 Ye, M. SR-128-06 Yermakov, M. SR-116-03, SR-401-05 Yi, J. SR-111-05 Yip, W. CS-401-12 Young, W. CS-402-12, CS-401-07 Yuan, J. SR-126-03 Zaccaro, T. CS-403-07 Zalk, D. CS-108-06, CS-110-03 Zamzow, E. SR-106-05 Zhou, Y. SR-403-05 Zhu, J. SR-109-04 Zhuang, Z. SR-122-06, SR-122-05, SR116-04 96 W. AIHce 2015 | May 30 – June 4 | #AIHce
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