Medical Industry
Plastics as agents of protection Antibacterial plastics are taking the infection defence to the “surface� level, says Angelica Buan in this article.
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odern medicine continues to combat emerging diseases and modify available management modalities for identified diseases, because new strains are developing and showing resistance against known therapies. In the recent years, antimicrobial resistance (AMR) has persisted even within healthcare settings and known potent antibiotics are no longer effective to neither treat nor prevent infections. The World Health Organisation (WHO) has addressed the increasing incidence of AMRs globally. Together with partner sectors, WHO has undertaken a surveillance report to appraise the extent of AMR as well as track new trends and threats, and the efficacy of healthcare interventions. While this situation is reminiscent of the pre-antibiotic era, or when infections that are now treatable used to cause mortality, experts would still advice that prevention is better than cure. First line of defence Integral to modern medicine is advancement in technologies to speed up access and delivery of care. Amongst the new preventive innovations are the antimicrobial or antibacterial plastics, which find use for a wide variety of applications, including medical devices, food packaging, textile, construction parts, automotive, sports equipment and more. Now that antimicrobial resistance is on the rise, demand for antimicrobial plastics has shot up. MarketsandMarkets (M&M) in its report estimates the market to reach US$3.6 billion by 2020. The Asia-Pacific market, led by China, is expected to drive this growth. On one hand, the US, which primarily is the largest global consumer for antimicrobial plastics, is being outpaced by the BRIC (Brazil, Russia, India, China) countries. As a result, key market players in this segment are shifting their production and distribution business in the APAC region as well as in South America, M&M said, adding that packaging, healthcare, and automotive applications are top market segments for antimicrobial plastics. For healthcare and most other applications, the growing innovations are aimed at proactively inhibiting microbial growth in plastic devices and products. Moreover, the heightened awareness regarding health-related infections, also imitates regulations in North America and Europe to use products and devices of antimicrobial coatings to prevent contamination and re-infection.
Clearflo Ag-47 antimicrobial tubing has silver ions and is used for fluid transfer applications
Protective technologies Regular plastics can attract microbes, which cause it to be discoloured, develop bad odour or promote degradation. To provide the germicide property, resins are either added or coated with antimicrobial compounds during compounding or moulding. Silver, which has been a widely used antimicrobial for centuries, reacts electrochemically with moisture on contact, and releases ions. The silver ions inhibit the growth, function and proliferation of the microbes. American flexible plastic tubing and hose maker NewAge Industries offers its Clearflo Ag-47 antimicrobial tubing that is suitable for a variety of fluid transfer applications. JUNE / JULY 2015
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