Aims: Antimicrobial coatings, for use in combination with routine cleaning and disinfection, were evaluated for their effectiveness in reducing virus concentration on stainless steel surfaces.
Methods: Twenty antimicrobial coating products, predominantly composed of organosilane quaternary ammonium compounds, were applied to stainless steel coupons, dried overnight and evaluated for efficacy against Φ6, an enveloped bacteriophage. Additionally, two peel and stick polymer-based films, a copper-based film and three copper alloys were evaluated. Efficacy was determined by comparison of recoveries from uncoated (positive control) and coated (test) surfaces.
Results: The results indicated that some of the coating products initially demonstrated >3-log reduction of Φ6; no direct correlation of efficacy was observed with an active ingredient or its concentration. The peel and stick films and copper alloys each demonstrated efficacy in initial testing. However, none of the spray-based products retained efficacy after subjecting the coating to abrasion with either a hypochlorite or quaternary ammonium-based solution applied in accordance with EPA Interim Guidance for Evaluating the Efficacy of Antimicrobial Surface Coatings. Of the products tested for this durability, only one peel and stick polymeric film retained efficacy; the copper alloys were not tested for their durability in this study.
Conclusions: These results suggest that while some organosilane quaternary ammonium compound-based products demonstrate antiviral efficacy, more research and development is needed to understand effective formulations with sufficient durability to perform as supplements to routine cleaning and disinfection.
Keywords: Phi6; antimicrobial; antiviral; bacteriophage; disinfection; surface coating.
© 2021 Society for Applied Microbiology. This article has been contributed to by US Government employees and their work is in the public domain in the USA.