Controlled Heat And Humidity-Based Treatment For The Reuse Of Personal Protective Equipment: A Pragmatic Proof-Of-Concept To Address The Mass Shortage Of Surgical Masks And N95/Ffp2 Respirators And To Prevent The Sars-Cov2 Transmission

Background: The coronavirus infectious disease-2019 (COVID-19) pandemic has led to an unprecedented shortage of healthcare resources, primarily personal protective equipment like surgical masks, and N95/filtering face piece type 2 (FFP2) respirators.Objective: Reuse of surgical masks and N95/FFP2 respirators may circumvent the supply chain constraints and thus overcome mass shortage. Methods, design, setting, and measurement: Herein, we tested the effects of dry- and moist-air controlled heating treatment on structure and chemical integrity, decontamination yield, and filtration performance of surgical masks and FFP2 respirators.Results: We found that treatment in a climate chamber at 70 degrees C during 1 h with 75% humidity rate was adequate for enabling substantial decontamination of both respiratory viruses, oropharyngeal bacteria, and model animal coronaviuses, while maintaining a satisfying filtering capacity.Limitations: Further studies are now required to confirm the feasibility of the whole process during routine practice.Conclusion: Our findings provide compelling evidence for the recycling of pre-used surgical masks and N95/FFP2 respirators in case of imminent mass shortfall.