Litcius/Paper detail

Antimicrobial coatings for environmental surfaces in hospitals: a potential new pillar for prevention strategies in hygiene

Wolfgang Bäumler, Daniel Bernhard Eckl, Thomas Holzmann, Wulf Schneider‐Brachert

2021Critical Reviews in Microbiology65 citationsDOIOpen Access PDF

Abstract

Recent reports provide evidence that contaminated healthcare environments represent major sources for the acquisition and transmission of pathogens. Antimicrobial coatings (AMC) may permanently and autonomously reduce the contamination of such environmental surfaces complementing standard hygiene procedures. This review provides an overview of the current status of AMC and the demands to enable a rational application of AMC in health care settings. Firstly, a suitable laboratory test norm is required that adequately quantifies the efficacy of AMC. In particular, the frequently used wet testing (e.g. ISO 22196) must be replaced by testing under realistic, dry surface conditions. Secondly, field studies should be mandatory to provide evidence for antimicrobial efficacy under real-life conditions. The antimicrobial efficacy should be correlated to the rate of nosocomial transmission at least. Thirdly, the respective AMC technology should not add additional bacterial resistance development induced by the biocidal agents and co- or cross-resistance with antibiotic substances. Lastly, the biocidal substances used in AMC should be safe for humans and the environment. These measures should help to achieve a broader acceptance for AMC in healthcare settings and beyond. Technologies like the photodynamic approach already fulfil most of these AMC requirements.

Topics & Concepts

HygienePillarRisk analysis (engineering)Antibiotic resistanceTransmission (telecommunications)AntimicrobialHealth careMedicineComputer scienceEngineeringAntibioticsBiologyMicrobiologyStructural engineeringEconomicsPathologyEconomic growthTelecommunicationsAntimicrobial agents and applicationsInfection Control in HealthcareDental Research and COVID-19