Application of Classification Technique and Sentiment Analysis
International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 Application of Classification Technique and Sentiment Analysis Based Text Analytics to the Patient Feedback Management System 1 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin 1 Corresponding Author: Selvan C, Department of Industrial Engineering, Anna University, Guindy, Chennai, 2 Raju R, Professor, Department of Industrial Engineering, Anna University, Guindy, Chennai,India 3 Jitendranath Palem, Quality Subject Matter Expert - Program Manager, IBM India 4 Marie-Claude Guerin, Master Linguist Engineer, SPSS Text Analytics, IBM France ABSTRACT This case study presents the application of Sentiment Analysis based Text analytics applied for the Patient feedback management System at multi super speciality hospital in India. This technique was successfully implemented in order to improve the quality of care and patient‟s satisfaction levels by mining the patients‟ opinion and feedback data using text analytics and identifying the specific problematic departments which were the major source of patient dissatisfaction. This study breaks the myth of the hospital management team who were under assumption that “all the patients are satisfied at every stage as everyone getting the equal quality of treatment”. This study proves that patient‟s satisfaction level varies at every stage of their treatment life cycle and also it differs among patient types and varies at every stage of treatment. By leveraging the Text analytics the hospital top management derived the optimum countermeasures which resulted in improving patient satisfaction across all departments by reducing complaints and improving patient care. Keywords Text Analytics, Text Mining, Opinion Mining, Sentiment Analysis, Decision Tree, Patient satisfaction 1. INTRODUCTION Treating patients as customers has an adverse effect in the healthcare industry as well as on society. Customer retention is one of the top priorities for every organization however, as the multi super specialty hospitals adopted the corporate level service strategy and started providing the superior facilities to all the patients, every single patient visiting their hospital are treated with high respect and superior service, while this is true for the majority of hospitals, this case study reveals the consequences of the corporate style of service strategy and the potential risks that would severely affect the hospital revenue in the future if they do not adapt the analytical approach to digest the unstructured data collected from the various feedback systems across all the departments and branches in all locations. It is important to note that, treating patients as customers would completely defeat the purpose of hospital industry and the medical profession itself in the long run. Customer retention strategies are at the core for all type of industries, except hospital industry. Since patients are not customers and hospitals never expect patients to visit their hospital for the same diseases repeatedly despite of long medication courses. In this paper, we described how we have saved one multi super specialist hospital which was about to experience a crisis situation which would have affected the financial aspects as well as reputation and brand. This study uses statistical techniques 1 7 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 and performed text analytics to improve customer satisfaction, moreover this can lead to new ventures similar to “Patientslikeme”social web platforms in India as well. The emphasis is on the importance of establishing a culture of clinical service excellence by reducing patients‟ complaints which improves the patient experience and satisfaction which intern improves profitability. This has been the significant reason for the paradigm shift in the delivery of care in many hospitals worldwide. Creation of a competitive advantage in such hospitals is mainly based on that world class service offered by them to their patients. One of the main reasons why many of the organizations fail in delivering service excellence is that, providing service excellence involves the combination of many key factors such as design of service processes, organizational culture, staff members participation and performance of the organization which leads to not caring enough the soft side of the service which is patient satisfaction and perception. A complimentary benefit can be obtained when clinical excellence is combined with service excellence. Such an increased focus on service delivery can greatly impact the success of hospitals. The following are objectives of this study: Identify the key touch points that affect the patient satisfaction at hospital Assess how these key patient touch points are rated by the patients in “patient feedback management system” Determine the effect of reducing patient complaints and measure the overall satisfaction. 1.1 Data Design and feedback collection method Patient feedback management system is a web based portal being used centrally across all branches by the multi super speciality hospital. The data is collected for all the 16 branches of the hospital. Total 2347 patient‟s responses were captured and used for the analysis. We assessed the touch points at various stages of patient treatment through the survey and performed text analytics to identify hidden problems in order to improve the patient satisfaction level. 1.2 Solution methodology This study used the decision tree classification method (C5.0 Algorithm) due to the nature of its speed, memory usage and its support for boosting, weighting, winnowing for identifying the focus area of opportunities and order of priority to focus on corrective actions. Traditionally, most of the data analysts uses pareto analysis to identify the vital few factors or the top focus areas, since this conventional approach does not focus on soft elements such as satisfaction levels and actual feelings of patients and the impact on service. Moreover, the categorization of feedback responses provided in lengthy text box contains lot of description about their feelings, appreciations, concerns, issues, challenges. Using Text Analytics, it helped us to understand the actual emotions or sentiments contained in patient's feedback text. The unique aspect of this study lies in leveraging the decision tree for identifying the problematic area of opportunities to implement the countermeasures in order to improve patient satisfaction levels. This can be further used for predicting the complaints type in specific departments. 1.3. Results: Based on the text analytics recommendations, the hospital management staff understood the patients‟ perceptions and feelings. This resulted in reduction of 72% patient complaints across all top contributing areas. 2. LITERATURE REVIEW The thorough literature review study helped us to realize that there are no notable case studies in the area of leveraging sentiment analysis based text analytics for the patient‟s feedback management 1 8 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 system. “Patientslikeme” is a digital social network website where patients of chronic, life-changing diseases share detailed quantifiable information about themselves, their diseases and their treatments „effectiveness (Christopher S. Rollyson and associates 2008). Transformation of healthcare is underway from sellers‟ market to consumers‟ market, where the satisfaction of the patients‟ need is a primary concern while defining the service quality (Fellani Danasra et al. 2011). Healthcare experiences of a patient can be measured from the patient complaint because a complaint might suggest unsatisfactory or unsafe services. (Pichert et al. 2008) demonstrated an association between unsolicited patient complaints and physicians‟ risk management profiles. They delineate about how a responsive healthcare organization benefits by recording the patient complaint, systematically analysing and aggregating it in order to improve service quality, safety and reduce lawsuit risks. (Sage 2002) linking patient complaints and malpractice risks noted that such an association helped to forge stronger links between the „customer satisfaction‟ side of the healthcare and the „clinical safety‟ side. Furthermore, (Hsieh et al. 2005) noted that many healthcare organizations hardly use patient complaints to promote higher standards of care. In the recent years, several authors have suggested several ways of promoting quality service and mitigating patient risks. (Gurses and Xiao 2006) found that communications between healthcare teams and patients uncovered unmet needs and improved clinical outcomes as well. Levinson and Gallagher (2007) emphasized the significance of disclosing medical errors to patients. They suggested that physicians‟ error disclosures might create opportunities for patients to help improve safety and quality. Coulter and Ellins (2007) have stressed the effectiveness of strategies for informing, educating and involving patients. For more than a decade, even though many healthcare organizations have supported awareness on feedback mechanism and many interventions to reduce the number of patient complaints thereby increasing the patient satisfaction, a concrete optimal statistical model to assess the critical patient touch points with a structured methodology within less amount of time was found missing. This study shows the patients‟ complaint categories and in which area most of the complaints are originating. The scope of the text analytics in this case study is for the categories patients‟ "Complaints" and "Suggestions" and for the decision tree model, all the three types (complaints, compliments, suggestions) of feedback taken into consideration. In the SPSS Modeler, The classification technique used the Area Name as the “input field” and the “Comment type” as the target field. The Area name column was coded into nominal variables as shown in Table 1. Table 1 Area names and corresponding complaints and suggestions Serial Area name(issue area) Complaints number and Suggestions 1 Administration 182 2 Nursing 106 3 House Keeping 93 4 Rooms 75 5 Front office 71 6 Billing 50 1 9 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 7 8 9 10 11 12 13 14 15 16 18 19 20 21 22 23 24 In-room Dinning Medical Services PHC IP Service Investigation Services Cardiology Pharmacy Public Areas Operation Theatre Restaurants International Patient Services Dialysis Unit Telephones Bio Medical Laundry Blood Bank Ambulance service 45 38 28 21 17 13 11 10 8 6 3 3 2 1 1 1 1 2.1 METHODOLOGY Assessing the various patient touch points at different stages of patient life cycle to reduce the number of patient complaints in the hospital will satisfy the customers. (Internal and External) Feedback collected from 2347 Patients and 577 complaints were reported Metric - Number of Patient Complaints Baseline - 577 Complaints per month / measured over year Goal - 121 Complaints per month 2.2 Data Collection summary Feedback responses from 2347 respondents extracted from patient feedback management system and the data period of 1 year. The data contains the feedback concerned with frontline, in-patient, outpatient, health check-up and post discharge. The descriptive summary of data shows that 18% complaints (577) were recorded, 75% of compliments (2351) and 7% of suggestions were recorded (216). The classification technique used the Area Name as the input field and the Comment type as the target field. The Area name column was coded into nominal variables Variables recoded in IBM® SPSS® Statistics Comment type column coded into three nominal variables such as compliment = 1 complaint= 2 suggestion= 3 3. ANALYTICAL PHASE – MODEL BUILDING Figure (1) represents the IBM® SPSS® Modeler Premium stream building to apply the decision tree model (c5.0 algorithm) to identify the area codes which have a high complaint percentage that needs to be targeted for improvement with minimal effort. 1 10 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 Figure 1. SPSS Modeler Stream for creating decision Tree using the department names (area code) and corresponding patients feedback data 3.1. Model summary output area code in [1.000 8.000 15.000 19.000] [ Mode: Compliment ] => Compliment area code in [ 2.000 3.000 5.000 7.000 9.000 10.000 11.000 12.000 14.000 17.000 18.000 20.000 21.000 22.000 23.000 ] [ Mode: Complaint ] => Complaint area code in [ 4.000 6.000 13.000 ] [ Mode: Suggestion ] => Suggestion area code in [ 16.000 ] [ Mode: Complaint ] Survey Name in [ "Frontline Feedback" "Post Discharge" ] [ Mode: Complaint ] => Complaint Survey Name in [ "In-Patient" ] [ Mode: Compliment ] => Compliment Survey Name in [ "Out-Patient" "Personalized Health Check" ] [ Mode: Complaint ] Complaint Figure 2: Decision Tree output generated by IBM® SPSS® Modeler 1 11 3.1.1 Decision tree model output interpretation Selvan C, Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin 2 International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 Referring to the C5.0 decision tree in Figure 2, the root node classification table calculated the proportions of each comment type category. Complaint category feedback covers 18% of the total feedback. There are 4 nodes generated from the root node. Each node contains the relative proportions of comment type categories and corresponding area code the comment type belongs to. The point of interest is to identify which area codes (department) need to be targeted in order to reduce complaints with minimal efforts. Referring to Node 4, the complaint percentage is 50% and the corresponding survey type groups. Frontline feedback, Post discharge are dominant groups with maximum complaints belonging to the area code 16, i.e. nursing department. The second top contributing departments to focus on are mentioned in Node 3 corresponding to the area codes 4, 6, 13, i.e. Blood bank, Dialysis unit, IP service. The blood bank related issues were due to the IT infrastructure issues which were fixed by conducting another research program and enclosed the complete case study in the thesis. Table 2 presents the cross tabulation summary performed through hypothesis testing using the test of association (Chi-square) to validate the hospital management team‟s assumption that the feedback responses are evenly distributed across all patient types and no relationship between patient type and their response. Table 2: Feedback type versus the feedback type category cross tabulation SurveyName * CommentType Crosstabulation CommentType Complaint Compliment Suggestion Total SurveyName Frontline Count 13 0 0 13 Feedback Expected 2.4 9.7 .9 13.0 Count % within 100.0% 0.0% 0.0% 100.0% SurveyName % within 2.3% 0.0% 0.0% .4% CommentType % of Total .4% 0.0% 0.0% .4% In-Patient Count 99 244 117 460 Expected 84.4 344.0 31.6 460.0 Count % within 21.5% 53.0% 25.4% 100.0% SurveyName % within 17.2% 10.4% 54.2% 14.6% CommentType % of Total 3.1% 7.8% 3.7% 14.6% Out-Patient Count 13 5 6 24 Expected 4.4 17.9 1.6 24.0 Count % within 54.2% 20.8% 25.0% 100.0% SurveyName % within 2.3% .2% 2.8% .8% CommentType 1 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin 12 International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 % of Total Personalized Count Health Expected Check Count % within SurveyName % within CommentType % of Total Post Count Discharge Expected Count % within SurveyName % within CommentType % of Total Count Expected Count % within SurveyName % within CommentType % of Total Total .4% 9 .2% 46 .2% 20 .8% 75 13.8 56.1 5.2 75.0 12.0% 61.3% 26.7% 100.0% 1.6% 2.0% 9.3% 2.4% .3% 443 1.5% 2056 .6% 73 2.4% 2572 472.0 1923.3 176.7 2572.0 17.2% 79.9% 2.8% 100.0% 76.8% 87.5% 33.8% 81.8% 14.1% 577 65.4% 2351 2.3% 216 81.8% 3144 577.0 2351.0 216.0 3144.0 18.4% 74.8% 6.9% 100.0% 100.0% 100.0% 100.0% 100.0% 18.4% 74.8% 6.9% 100.0% 3.1.3. Hypothesis testing H0: There is no significant relationship among patient type and their satisfaction levels Ha: There is a significant relationship among patient type and their satisfaction levels 3.1.4. Cross tab summary interpretation Based on the cross tab summary table shown in table 3, it is clear that there is a huge difference between observed and expected values. The same is confirmed in the asymptotic significant level P value in the chi-square table, which is less than 0.05 favouring the alternate hypothesis. Below section contains the text analytics results obtained and the data insights. This proves that the patient‟s feedback satisfaction level has strong association with patient type (In-patient, out-patient, personalized health check-up, post-discharge) Table 3. Chi- Square output – Decision tree classification Chi-Square Tests Asymp. Sig. (2Value df sided) Pearson Chi-Square 475.812a 8 .000 Likelihood Ratio 362.675 8 .000 N of Valid Cases 3144 1 13 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 4. Sentiment analysis based Text analytics on the patient feedback data Table 4 shows the output generated by IBM® SPSS® Modeler Text Analytics for the patients‟ feedback automatically categorized into negative, negative functioning, negative budget, negative attitude, negative feeling, and negative competence. Category building refers to the generation of category definitions and classification through the use of one or more built-in techniques, and categorization refers to the scoring, or labelling process whereby unique identifiers (name/ID/value) are assigned to the category definitions for each record or document. Table 4.1 shows the output generated during category building, the concepts and types that were extracted and used as the building blocks for the selected categories. When we build categories, the records or documents are automatically assigned to categories if they contain text that matches an element of a category's definition. Table 4: Negative type Table 4.1: Negative type concept 1, concept 2 extraction 1 14 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 Figure 3: category web of patient feedback data Table 5: category type proportion and the corresponding document Figure 4: sentiment analysis output generated based on patients feedback data related to “Negative functioning” 1 15 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 Figure 5: sentiment alysis output generated based on patients feedback data related to “Negative functioning- products” Figure 6: sentiment alysis output generated based on patients feedback data related to “Negative feeling” Negative budget Figure 7: sentiment alysis output generated based on patients feedback data related to “Negative budget” 1 16 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 In Table 4.1.the Concept tab displays the set of concepts that were extracted. Concepts are presented in a table format with one row for each concept. The objective is to select which concepts will be used for scoring. In some cases, a concept represents the concept name as well as some other underlying terms associated with this concept, such as inflected forms, variant terms or synonyms. Figures 3 and 4 present the document/record overlap for the categories to which the documents/records belong according to the selection in the other panes. If category labels exist, these labels appear in the graph. The thickness of the line denotes the number of common documents or records they have that represents the high traffic interactions between the concepts. It is clear that patient to nursing staffs have thick lines which was already proved by the decision tree model output (i.e. the area code 16). In a simple terminology, this represents that there are maximum comments related to nursing staffing. Figures 5, 6, 7,8 show the sentiment analysis output that clearly reveals the dissatisfaction elements related to function (infrastructure related), service support (front office service), budget(expenditure at the hospital). It is clear that there is a high association between the nursing services and patients relative to other aspects such as medicines, occupation/staff etc. The sentiment analysis graphs on Figures 5, 6, 7 and 8 reveal that there are complaints related to hospital cost/expenditure, in-patient facilities with respect to the hospital infrastructure such as air-condition systems, toilets, fans, beds, etc. The factors related to other dominant reasons were also revealed by the text mining results which helped the hospital management to take the appropriate corrective actions. The complete output is not shown in order to preserve confidentiality for patients, doctors, nurses and staff members 5. KEY RECOMMENDED SOLUTIONS RECOMMENDED AND IMPLEMENTED BY HOSPITAL MANAGEMENT TEAM 1. Sentiment analysis index has been created and deployed in the hospital management dashboard itself for the key branch where there were more number of complaints. This index dynamically gets updated on daily basis as and when the patient‟s feedback management system gets updated with new feedback entries. 2. Customized training programs was conducted for the target nurses whose service was poor 3. Automated Queue system was deployed for proper bed allocation. 4. Language translators were made available to overcome the problems regarding the language barrier for non-local or international patients. 5. Proper training was given to all the admission staff to speed up the process and properly guide patients. 6. Cross functional meetings were conducted with all the kitchen staffs to brief them to be more cautious while preparing patients‟ food. Production in-charge had been briefed to ensure that taste and quality of food would be maintained. 7. Departmental meeting was conducted for service staffs, to ensure that timeliness of service was adhered to. 8. Food for emergency patients was served on scheduled timings. The emergency nurses in charge had been instructed to serve proper diet to patients. 9. Patients were educated about the availability of floor coordinators in the floors to clarify their doubts. 10. Admission staffs were trained to behave with patients in a friendly & cordial way. 11. Patients were educated about the waiting areas in the different places. 1 17 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 12. Proper inventory management system was followed to optimize the reorder level and quantity. 13. Regular on job refresher training programs were conducted. 14. Preventive healthcare classes scheduled for free for patient‟s relatives(as nominated by patients) All the improvement measures were implemented during the improve phase and continuous review of the different solutions was carried out. All levels of staff involved in the hospital were trained to follow mistake proofing techniques to carry out routine surveillance of various processes. Clinical pharmacology personnel monitored the processes with constant vigilance on all the activities of medication management. Periodic meetings were scheduled to review the progress of the improvement measures and their impact on the overall business objectives. 6. RESULTS AND DISCUSSION Patient‟s complaints tracked using the I-MR control chart, from the chart, it is clear that the reduction of patient‟s complaints started from June 2013 onwards, process shift taken place and the new control limits were computed . Complaints related to Nursing have been completely eliminated post implementation of corrective actions. In addition to nursing related complaints the other immediate complaints such as billing related issues, front office issues, medical services, or PHC also got reduced. The number of complaints was reduced by 72% i.e. from 577 to 158 over a period of 1 year which is shown in Figure. (8) Figure 8: control chart representing the state of “patients‟ complaints” before and after solution implementation Post implementation of corrective actions, the number of complaints had been significantly reduced and the same is represented in the control chart. , but also post feedback had recorded 74.77% compliments (2351) and 6.88% suggestions (216). Some of the novel approaches to capture the immense insights into customer experience were management summary dashboard, indices summary dashboard, departmental scorecard, daily pulse, top ten customer irritants and trend charts, comparative score cards, qualitative reports on departmental performance, case aging report and Service Level Agreement for each head of the department. 1 Selvan C, 2 Raju R, 3 Jitendranath Palem, 4 Marie-Claude Guérin 18 International Journal of Engineering Technology, Management and Applied Sciences www.ijetmas.com May 2015, Volume 3 Special Issue, ISSN 2349-4476 7. CONCLUSION The role of text analytics is increasing at exponential rate with the growth of unstructured data. Leveraging this in healthcare industry like demonstrated in this case study helps improving the patient satisfaction and quality of care. Using the decision tree classification modelling technique we were able to specifically target the departments requiring corrective action implementation without overspending the training costs. Using text analytics the hospital management team understood each and every patient feedback and the nature of the complaint. Also, the patient concerns about several attributes causing dissatisfaction were understood from the voice of the customer which helped in establishing the CTQ characteristics. Hypothesis testing was used to show that the financial, clinical, operational, service and safety attributes had a significant impact on patient satisfaction and that it differs from each patient group. Considerable amount of time was saved by identifying the non-value adding activities and eliminating them. As a result, the waiting time of the patient had reduced significantly resulting in increased patient satisfaction. Further, it was proved that the patient satisfaction was positively correlated with the patient loyalty. Also patient loyalty was positively correlated with the hospital performance. As a result, the rate of patients with loyalty intention started increasing hand in hand with referral index of the hospital. This directly improved the operating profit, operating profit per patient, revenue and revenue per patient. 8. SCOPE FOR FUTURE WORK The scope for future work for this case study is enormous, for example: creating a “Patientslikeme” digital network for any hospital in India to establish the connected experience infrastructure which gives the world class quality care and transparency across all departments of all levels to the top level management in real time. 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