Abstract

Coronavirus disease 2019 (COVID-19) is an illness caused by a novel coronavirus, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The disease was first identified as a cluster of respiratory illness in Wuhan City, Hubei Province, China, in December 2019, and has rapidly spread across the globe to greater than 200 countries. Healthcare providers are at an increased risk for contracting the disease due to occupational exposure and require appropriate personal protective equipment (PPE), including N95 respirators. The rapid worldwide spread of high numbers of COVID-19 cases has facilitated the need for a substantial supply of PPE that is largely unavailable in many settings, thereby creating critical shortages. Creative solutions for the decontamination and safe reuse of PPE to protect our frontline healthcare personnel are essential. Here, we describe the development of a process that began in late February 2020 for selecting and implementing the use of hydrogen peroxide vapor (HPV) as viable method to reprocess N95 respirators. Since pre-existing HPV decontamination chambers were not available, we optimized the sterilization process in an operating room after experiencing initial challenges in other environments. Details are provided about the prioritization and implementation of processes for collection and storage, pre-processing, HPV decontamination, and post-processing of filtering facepiece respirators. Important lessons learned from this experience include, developing an adequate reserve of PPE for effective reprocessing and distribution, and identifying a suitable location with optimal environmental controls (i.e. operating room). Collectively, information presented here provides a framework for other institutions considering decontamination procedures for N95 respirators.Impact statementThere is a critical shortage of personal protective equipment (PPE) around the globe. This article describes the safe collection, storage, and decontamination of N95 respirators using hydrogen peroxide vapor (HPV). This article is unique because it describes the HPV process in an operating room, and is therefore, a deployable method for many healthcare settings. Results presented here offer creative solutions to the current PPE shortage.

Highlights

  • Rapid global dissemination of a novel coronavirus disease caused by an enveloped non-segmented positive-sense RNA virus, severe acute respiratory syndrome coronavirus 2 (SARSCoV-2), has overwhelmed healthcare systems around the ISSN 1535-3702 Copyright ! 2020 by the Society for Experimental Biology and MedicineExperimental Biology and Medicine 2020; 245: 933–939.9..3.4.....E..x.p.e.r.i.m..e.n.t.a.l.B..i.o.lo..g.y..a.n.d...M..e.d.i.c.in..e....V.o.l.u.m..e..2.4..5...J..u.n.e..2.0..2.0......................................................................................world

  • The primary means of protecting frontline healthcare personnel (HCP) from contracting COVID-19 is through the proper use of personal protective equipment (PPE), such as N95 filtering facepiece respirators (FFRs)

  • The Centers for Disease Control and Prevention (CDC) has implemented an ongoing and continually updated release of information to optimize the supply of N95 respirators with most recent updates on 4 April 2020.1 While it is without question that reuse of N95 respirators would be obviated if an adequate supply were available, creative strategies are required when there is an imbalance in the supply and demand

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Summary

Introduction

Creative solutions for the decontamination and safe reuse of PPE to protect our frontline healthcare personnel are essential. We describe the development of a process that began in late February 2020 for selecting and implementing the use of hydrogen peroxide vapor (HPV) as viable method to reprocess N95 respirators. Since preexisting HPV decontamination chambers were not available, we optimized the sterilization process in an operating room after experiencing initial challenges in other environments.

Results
Conclusion

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