期刊
APPLIED BIOSAFETY
卷 26, 期 2, 页码 80-89出版社
MARY ANN LIEBERT, INC
DOI: 10.1089/apb.20.0053
关键词
decontamination; N95; respirator; heat; humidity; steam
资金
- Heising-Simons Foundation
- HeisingSimons Foundation (for Harvard)
- Hertz Foundation Fellowship
- HERCULES Center [P30ES019776]
- National Defense Science and Engineering Graduate (NDSEG) Fellowship
- National Science Foundation Graduate Research Fellowship
Humid heat is an effective method for decontamination of N95 respirators, with key parameters such as temperature, humidity, duration of exposure, and local microenvironment being crucial. Maintaining temperatures of 70-85 degrees C and relative humidity >50% for at least 30 min can effectively inactivate SARS-CoV-2 on N95 respirators while preserving fit and filtration efficiency, for three to five cycles. Dry heat is significantly less effective in viral inactivation.
Introduction: The coronavirus disease 2019 (COVID-19) pandemic has caused a global shortage of single-use N95 filtering facepiece respirators (FFRs). A combination of heat and humidity is a promising method for N95 FFR decontamination in crisis-capacity conditions; however, an understanding of its effect on viral inactivation and N95 respirator function is crucial to achieving effective decontamination. Objective: We reviewed the scientific literature on heat-based methods for decontamination of N95 FFRs contaminated with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and viral analogues. We identified key parameters for SARS-CoV-2 bioburden reduction while preserving N95 fit and filtration, as well as methods that are likely ineffective. Key Findings: Viral inactivation by humid heat is highly sensitive to temperature, humidity, duration of exposure, and the local microenvironment (e.g., dried saliva). A process that achieves temperatures of 70-85 degrees C and relative humidity >50% for at least 30 min is likely to inactivate SARS-CoV-2 (>3-log reduction) on N95 respirators while maintaining fit and filtration efficiency for three to five cycles. Dry heat is significantly less effective. Microwave-generated steam is another promising approach, although less studied, whereas 121 degrees C autoclave treatments may damage some N95 FFRs. Humid heat will not inactivate all microorganisms, so reprocessed N95 respirators should be reused only by the original user. Conclusions: Effective bioburden reduction on N95 FFRs during the COVID-19 pandemic requires inactivation of SARS-CoV-2 and preservation of N95 fit and filtration. The literature suggests that humid heat protocols can achieve effective bioburden reduction. Proper industrial hygiene, biosafety controls, and clear protocols are required to reduce the risks of N95 reprocessing and reuse.
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