Global Pharmaceutical Filtration Market to Witness 10.6% CAGR during 2017 – 2023 [email protected] www.psmarketresearch.com Global Pharmaceutical Filtration Market According to a new market research report “Global Pharmaceutical Filtration Market Size, Share, Development, Growth and Demand Forecast to 2023 - Industry Insight by Product (Membrane Filters, Prefilters & Depth Media Filters, Cartridge & Capsule Filters, Single-Use Systems, Filter Holders, Filtration Accessories, Others), by Technique (Microfiltration, Ultrafiltration, Nanofiltration, Others), by Application (Final Product Processing, Raw Material Filtration, Cell Separation, Water Purification, Air Purification), by Scale of Operation (Manufacturing-Scale, PilotScale, R&D-Scale)” published by P&S Market Research, the global pharmaceutical filtration market is expected to grow at a CAGR of 10.6% during 2017 - 2023. Explore Report Description at: https://www.psmarketresearch.com/marketanalysis/Pharmaceutical-filtration-market Global Pharmaceutical Filtration Market Increasing production of generic drugs drive the global market According to the study, the global pharmaceutical filtration market is likely to grow significantly during the forecast period, due to increasing prevalence of chronic diseases, rising prevalence of cancer, increasing geriatric population and increasing production of biopharmaceuticals and generic drugs. In addition, rising healthcare expenditure leading to increase in research and development spending also contributes to the growth of the overall market. High cost of pharmaceutical filtration and stringent regulatory requirements for validation of filtration process are the key factors restraining the global market growth. Global Pharmaceutical Filtration Market Insights on market segments As per the findings of the research, the membrane filter is the largest product category in the global pharmaceutical filtration market. Membrane filter is the microporous film with specific pore size, used for retaining unwanted particles or microorganisms larger than their pore size. Microfiltration has been the largest contributor to the growth of the global market, in terms of revenue, among the various techniques for product filtration. Final product processing has been the largest application area for pharmaceutical filtration, followed by raw material filtration, cell separation, water purification and air purification. Manufacturing-scale of operation has been the largest segment of the global market, based on scale of operation. Global Pharmaceutical Filtration Market North America stands as the largest pharmaceutical filtration market Geographically, North America has been the largest market for pharmaceutical filtration, with the U.S. being the larger contributor to the regional market, compared to Canada. Increasing prevalence of lifestyle associated and chronic diseases, rising geriatric population and increasing production of biopharmaceuticals are the factors that have been driving the growth of the North American market for pharmaceutical filtration. The U.K. has been the largest contributor to the European market for pharmaceutical filtration, followed by Germany and France. The market is expected to witness the fastest growth in Asia-Pacific during 2017 - 2023, owing to increasing cases of chronic diseases, increasing healthcare expenditure leading to increasing research and development spending and increasing geriatric population. Global Pharmaceutical Filtration Market Increasing prevalence of chronic diseases largely impacts the market Globally, the increasing prevalence of chronic diseases has been playing a key role in the growth of the pharmaceutical filtration market. The rapidly increasing burden of chronic diseases further compels government organizations and healthcare providers to provide improved facilities for effective disease treatment leading to increased drug launch globally. Prevalence of chronic diseases is increasing due to alteration in lifestyle and lack of access to preventive care. According to the Centers for Disease Control and Prevention (CDC), in 2012, approximately 117 million people in the U.S. had one or more chronic health conditions. The organization also reported that during 2013 – 2015, 54.4 million U.S. adults were diagnosed with some form of arthritis, rheumatoid arthritis, gout, lupus or fibromyalgia. Moreover, an estimated 78 million Americans aged 18 years or above will be diagnosed with arthritis by 2040. Global Pharmaceutical Filtration Market According to the International Agency for Research on Cancer (IARC), a specialized cancer agency of World Health Organization (WHO) that promotes cancer research, 12.7 million new patients globally were detected with cancer in 2008, and the number is expected to reach 21.4 million by 2030. In addition, according to the WHO, 8.2 million deaths took place globally due to cancer in 2012, out of which 1.6 million were due to lung cancer, while 745,000 deaths resulted from liver cancer and 400,000 deaths were an outcome of esophageal cancer. The increasing burden of chronic diseases is expected to result in higher death rates and additional economic cost. Thus, several developments have been taking place for efficient disease treatment, leading to increased production of drugs supporting the growth of the pharmaceutical filtration market globally. Global Pharmaceutical Filtration Market Key players in the pharmaceutical filtration market Some of the key players in the global pharmaceutical filtration market include Merck KGaA, Pall Corporation, GE Healthcare, 3M Company, Parker Hannifin Corporation, Sartorius Stedim Biotech S.A., Eaton Corporation PLC, Graver Technologies, LLC, Amazon Filters Ltd. and Meissner Filtration Products, Inc. Global Pharmaceutical Filtration Market Download report sample at: https://www.psmarketresearch.com/marketanalysis/pharmaceutical-filtration-market/report-sample GET IN TOUCH THANK YOU! For information regarding permissions and other queries Kindly write to: [email protected] US/Canada Toll-Free: 1-888-778-7886 www.psmarketresearch.com
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