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Effective ultraviolet C light disinfection of respirators demonstrated in challenges with Geobacillus stearothermophilus spores and SARS-CoV-2 virus.
van der Vossen, J M B M; Fawzy, A; Ouwens, A M T; van Doornmalen, J P C M; de Samber, M; Driessens, R; Heerikhuisen, M; Montijn, R C.
  • van der Vossen JMBM; The Netherlands Organisation for Applied Scientific Research TNO, Department of Microbiology and Systems Biology, Zeist, the Netherlands. Electronic address: jos.vandervossen@tno.nl.
  • Fawzy A; The Netherlands Organisation for Applied Scientific Research TNO, Department Equipment for Additive Manufacturing, Eindhoven, the Netherlands.
  • Ouwens AMT; The Netherlands Organisation for Applied Scientific Research TNO, Department of Microbiology and Systems Biology, Zeist, the Netherlands.
  • van Doornmalen JPCM; Catharina Ziekenhuis, Eindhoven, the Netherlands.
  • de Samber M; Signify, Eindhoven, the Netherlands.
  • Driessens R; Signify, Eindhoven, the Netherlands.
  • Heerikhuisen M; The Netherlands Organisation for Applied Scientific Research TNO, Department of Microbiology and Systems Biology, Zeist, the Netherlands.
  • Montijn RC; The Netherlands Organisation for Applied Scientific Research TNO, Department of Microbiology and Systems Biology, Zeist, the Netherlands.
J Hosp Infect ; 122: 168-172, 2022 Apr.
Article in English | MEDLINE | ID: covidwho-1729912
ABSTRACT

BACKGROUND:

The global COVID-19 pandemic, accompanied by spikes in the number of patients in hospitals, required substantial amounts of respiratory protective devices (respirators), thereby causing shortages. Disinfection of used respirators by applying ultraviolet C (UVC) light may enable safe reuse, reducing shortages.

AIM:

To determine whether UVC disinfection is applicable to enable repeated safe reuse of respirators.

METHODS:

The UVC chamber, equipped with low-pressure mercury discharge lamps emitting at 254 nm, was used to determine the sporicidal and virucidal effects. Respirators challenged with spores and viruses were exposed to various UVC energy levels. Deactivation of the biological agents was studied as well as UVC effects on particle filtration properties and respirator fit.

FINDINGS:

A 5 log10 reduction of G. thermophilus spore viability by a UVC dose of 1.1 J/cm2 was observed. By simulating spores present in the middle of the respirators, a 5 log10 reduction was achieved at a UVC dose of 10 J/cm2. SARS-CoV-2 viruses were inactivated by 4 log10 upon exposure to 19.5 mJ/cm2 UVC. In case UVC must be transmitted through all layers of the respirators to reach the spores and virus, a reduction of >5 log10 was achieved using a UVC dose of 10 J/cm2. Exposure to a six-times higher UVC dose did not significantly affect the integrity of the fit nor aerosol filtering capacity of the respirator.

CONCLUSION:

UVC was shown to be a mild and effective way of respirator disinfection allowing for reuse of the UVC-treated respirators.
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Full text: Available Collection: International databases Database: MEDLINE Main subject: SARS-CoV-2 / COVID-19 Type of study: Experimental Studies / Observational study Limits: Humans Language: English Journal: J Hosp Infect Year: 2022 Document Type: Article

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Full text: Available Collection: International databases Database: MEDLINE Main subject: SARS-CoV-2 / COVID-19 Type of study: Experimental Studies / Observational study Limits: Humans Language: English Journal: J Hosp Infect Year: 2022 Document Type: Article