TY - JOUR
T1 - The need for systematic quality controls in implementing N95 reprocessing and sterilization
AU - N95 Taskforce
AU - Goyal, N.
AU - Goldrich, D.
AU - Hazard, W.
AU - Stewart, W.
AU - Ulinfun, C.
AU - Soulier, J.
AU - Fink, G.
AU - Urich, T.
AU - Bascom, R.
N1 - Funding Information:
The authors wish to acknowledge the significant contributions of the N95 Taskforce members in addition to those designated in the author list, including Ross Rodgers, Margaret Wojnar, Duane Williams, Jennifer Maranki, Jennifer Toth, Scott Armen, Justin Kemp, Fibi Attia, Kofi Clarke, Kevin Myers, Gargi Vora, Raymond Scheetz and Kevin Bush. The authors also wish to thank the numerous other Penn State Health clinicians and employees who helped to implement this quality control process succesfully.
Publisher Copyright:
© 2022
PY - 2023/3
Y1 - 2023/3
N2 - Background: Due to increased requirement for personal protective equipment during the coronavirus disease 2019 pandemic, many medical centres utilized sterilization systems approved under Food and Drug Administration Emergency Use Authorization for single-use N95 mask re-use. However, few studies have examined the real-world clinical challenges and the role of ongoing quality control measures in successful implementation. Aims: To demonstrate successful implementation of quality control measures in mask reprocessing, and the importance of continued quality assurance. Methods: A prospective quality improvement study was conducted at a tertiary care medical centre. In total, 982 3M 1860 masks and Kimberly-Clark Tecnol PFR95 masks worn by healthcare workers underwent sterilization using a vaporized hydrogen peroxide gas plasma-based reprocessing system. Post-processing qualitative fit testing (QFT) was performed on 265 masks. Mannequin testing at the National Institute for Occupational Safety and Health (NIOSH) laboratory was used to evaluate the impact of repeated sterilization on mask filtration efficacy and fit. A locally designed platform evaluated the filtration efficiency of clinically used and reprocessed masks. Findings: In total, 255 N95 masks underwent QFT. Of these, 240 masks underwent post-processing analysis: 205 were 3M 1860 masks and 35 were PFR95 masks. Twenty-five (12.2%) of the 3M masks and 10 (28.5%) of the PFR95 masks failed post-processing QFT. Characteristics of the failed masks included mask deformation (N=3, all 3M masks), soiled masks (N=3), weakened elastic bands (N=5, three PFR95 masks), and concern about mask shrinkage (N=3, two 3M masks). NIOSH testing demonstrated that while filter efficiency remained >98% after two cycles, mask strap elasticity decreased by 5.6% after reprocessing. Conclusions: This study demonstrated successful quality control implementation for N95 mask disinfection, and highlights the importance of real-world clinical testing beyond laboratory conditions.
AB - Background: Due to increased requirement for personal protective equipment during the coronavirus disease 2019 pandemic, many medical centres utilized sterilization systems approved under Food and Drug Administration Emergency Use Authorization for single-use N95 mask re-use. However, few studies have examined the real-world clinical challenges and the role of ongoing quality control measures in successful implementation. Aims: To demonstrate successful implementation of quality control measures in mask reprocessing, and the importance of continued quality assurance. Methods: A prospective quality improvement study was conducted at a tertiary care medical centre. In total, 982 3M 1860 masks and Kimberly-Clark Tecnol PFR95 masks worn by healthcare workers underwent sterilization using a vaporized hydrogen peroxide gas plasma-based reprocessing system. Post-processing qualitative fit testing (QFT) was performed on 265 masks. Mannequin testing at the National Institute for Occupational Safety and Health (NIOSH) laboratory was used to evaluate the impact of repeated sterilization on mask filtration efficacy and fit. A locally designed platform evaluated the filtration efficiency of clinically used and reprocessed masks. Findings: In total, 255 N95 masks underwent QFT. Of these, 240 masks underwent post-processing analysis: 205 were 3M 1860 masks and 35 were PFR95 masks. Twenty-five (12.2%) of the 3M masks and 10 (28.5%) of the PFR95 masks failed post-processing QFT. Characteristics of the failed masks included mask deformation (N=3, all 3M masks), soiled masks (N=3), weakened elastic bands (N=5, three PFR95 masks), and concern about mask shrinkage (N=3, two 3M masks). NIOSH testing demonstrated that while filter efficiency remained >98% after two cycles, mask strap elasticity decreased by 5.6% after reprocessing. Conclusions: This study demonstrated successful quality control implementation for N95 mask disinfection, and highlights the importance of real-world clinical testing beyond laboratory conditions.
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U2 - 10.1016/j.jhin.2022.11.023
DO - 10.1016/j.jhin.2022.11.023
M3 - Article
C2 - 36521581
AN - SCOPUS:85147288370
SN - 0195-6701
VL - 133
SP - 38
EP - 45
JO - Journal of Hospital Infection
JF - Journal of Hospital Infection
ER -