N95 respirator decontamination: a study in reusability
The coronavirus disease 2019 (COVID-19) pandemic had caused a severe depletion of the worldwide supply of N95 respirators. The development of methods to effectively decontaminate N95 respirators while maintaining their integrity is crucial for respirator regeneration and reuse. In this study, we sys...
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| Format: | Article |
| Language: | English |
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Elsevier
2021-09-01
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| Series: | Materials Today Advances |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2590049821000187 |
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doaj-0459e3f319b94b91ac8ed3a9d604956d |
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Article |
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DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
C.-G. Wang Z. Li S. Liu C.T. Ng M. Marzuki P.S. Jeslyn Wong B. Tan A. Lee C.F. Hui Lim P. Bifani Z. Fang J.C. Ching Wong Y.X. Setoh Y.Y. Yang C.H. Mun S.Z. Fiona Phua W.Q. Lim L. Lin A.R. Cook H. Tanoto L.-C. Ng A. Singhal Y.W. Leong X.J. Loh |
| spellingShingle |
C.-G. Wang Z. Li S. Liu C.T. Ng M. Marzuki P.S. Jeslyn Wong B. Tan A. Lee C.F. Hui Lim P. Bifani Z. Fang J.C. Ching Wong Y.X. Setoh Y.Y. Yang C.H. Mun S.Z. Fiona Phua W.Q. Lim L. Lin A.R. Cook H. Tanoto L.-C. Ng A. Singhal Y.W. Leong X.J. Loh N95 respirator decontamination: a study in reusability Materials Today Advances Decontamination Respirator Vaporized hydrogen peroxide (VHP) UV COVID-19 SARS-CoV-2 |
| author_facet |
C.-G. Wang Z. Li S. Liu C.T. Ng M. Marzuki P.S. Jeslyn Wong B. Tan A. Lee C.F. Hui Lim P. Bifani Z. Fang J.C. Ching Wong Y.X. Setoh Y.Y. Yang C.H. Mun S.Z. Fiona Phua W.Q. Lim L. Lin A.R. Cook H. Tanoto L.-C. Ng A. Singhal Y.W. Leong X.J. Loh |
| author_sort |
C.-G. Wang |
| title |
N95 respirator decontamination: a study in reusability |
| title_short |
N95 respirator decontamination: a study in reusability |
| title_full |
N95 respirator decontamination: a study in reusability |
| title_fullStr |
N95 respirator decontamination: a study in reusability |
| title_full_unstemmed |
N95 respirator decontamination: a study in reusability |
| title_sort |
n95 respirator decontamination: a study in reusability |
| publisher |
Elsevier |
| series |
Materials Today Advances |
| issn |
2590-0498 |
| publishDate |
2021-09-01 |
| description |
The coronavirus disease 2019 (COVID-19) pandemic had caused a severe depletion of the worldwide supply of N95 respirators. The development of methods to effectively decontaminate N95 respirators while maintaining their integrity is crucial for respirator regeneration and reuse. In this study, we systematically evaluated five respirator decontamination methods using vaporized hydrogen peroxide (VHP) or ultraviolet (254 nm wavelength, UVC) radiation. Through testing the bioburden, filtration, fluid resistance, and fit (shape) of the decontaminated respirators, we found that the decontamination methods using BioQuell VHP, custom VHP container, Steris VHP, and Sterrad VHP effectively inactivated Cardiovirus (3-log10 reduction) and bacteria (6-log10 reduction) without compromising the respirator integrity after 2–15 cycles. Hope UVC system was capable of inactivating Cardiovirus (3-log10 reduction) but exhibited relatively poorer bactericidal activity. These methods are capable of decontaminating 10–1000 respirators per batch with varied decontamination times (10–200 min). Our findings show that N95 respirators treated by the previously mentioned decontamination methods are safe and effective for reuse by industry, laboratories, and hospitals. |
| topic |
Decontamination Respirator Vaporized hydrogen peroxide (VHP) UV COVID-19 SARS-CoV-2 |
| url |
http://www.sciencedirect.com/science/article/pii/S2590049821000187 |
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doaj-0459e3f319b94b91ac8ed3a9d604956d2021-08-30T04:14:00ZengElsevierMaterials Today Advances2590-04982021-09-0111100148N95 respirator decontamination: a study in reusabilityC.-G. Wang0Z. Li1S. Liu2C.T. Ng3M. Marzuki4P.S. Jeslyn Wong5B. Tan6A. Lee7C.F. Hui Lim8P. Bifani9Z. Fang10J.C. Ching Wong11Y.X. Setoh12Y.Y. Yang13C.H. Mun14S.Z. Fiona Phua15W.Q. Lim16L. Lin17A.R. Cook18H. Tanoto19L.-C. Ng20A. Singhal21Y.W. Leong22X.J. Loh23Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, SingaporeInstitute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, SingaporeInstitute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, SingaporeA∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, SingaporeA∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, SingaporeA∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, SingaporeA∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, SingaporeA∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, SingaporeInstitute of Bioengineering and Bioimaging, Agency for Science, Technology and Research (A∗STAR), 31 Biopolis Way, Nanos, 138669, SingaporeDSO National Laboratories, 12 Science Park Dr, 118225, SingaporeDSO National Laboratories, 12 Science Park Dr, 118225, SingaporeDSO National Laboratories, 12 Science Park Dr, 118225, SingaporeST Engineering Aerospace Engines Pte Ltd, 501 Airport Rd, 539931, SingaporeSaw Swee Hock School of Public Health, National University of Singapore and National University Health System, 12 Science Drive 2, 117549, SingaporeInstitute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, SingaporeEnvironmental Health Institute, National Environment Agency (NEA), 11 Biopolis Way No.06-05/08 Helios Block, 138667, Singapore; School of Biological Sciences, Nanyang Technological University, 60 Nanyang Drive, 637551, Singapore; Corresponding author.A∗STAR Infectious Diseases Labs, Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A∗STAR), 8A Biomedical Grove, 138648, Singapore; Corresponding author.Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, Singapore; Corresponding author.Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A∗STAR), 2 Fusionopolis Way, Innovis, No. 08-03, 138634, Singapore; Corresponding author.The coronavirus disease 2019 (COVID-19) pandemic had caused a severe depletion of the worldwide supply of N95 respirators. The development of methods to effectively decontaminate N95 respirators while maintaining their integrity is crucial for respirator regeneration and reuse. In this study, we systematically evaluated five respirator decontamination methods using vaporized hydrogen peroxide (VHP) or ultraviolet (254 nm wavelength, UVC) radiation. Through testing the bioburden, filtration, fluid resistance, and fit (shape) of the decontaminated respirators, we found that the decontamination methods using BioQuell VHP, custom VHP container, Steris VHP, and Sterrad VHP effectively inactivated Cardiovirus (3-log10 reduction) and bacteria (6-log10 reduction) without compromising the respirator integrity after 2–15 cycles. Hope UVC system was capable of inactivating Cardiovirus (3-log10 reduction) but exhibited relatively poorer bactericidal activity. These methods are capable of decontaminating 10–1000 respirators per batch with varied decontamination times (10–200 min). Our findings show that N95 respirators treated by the previously mentioned decontamination methods are safe and effective for reuse by industry, laboratories, and hospitals.http://www.sciencedirect.com/science/article/pii/S2590049821000187DecontaminationRespiratorVaporized hydrogen peroxide (VHP)UVCOVID-19SARS-CoV-2 |