Literature DB >> 33479334

Analysis of SteraMist ionized hydrogen peroxide technology in the sterilization of N95 respirators and other PPE.

Avilash K Cramer1,2, Deborah Plana1,2,3, Helen Yang1,4, Peter K Sorger5,6,7, Nicole R LeBoeuf1,8,9,10, Mary M Carmack1,4,11, Enze Tian1,12,13, Michael S Sinha1,4, David Krikorian1,8, David Turner1,8, Jinhan Mo1,12, Ju Li1,13, Rajiv Gupta1,9,14, Heather Manning1,8, Florence T Bourgeois1,4,11, Sherry H Yu1,15.   

Abstract

The COVID-19 pandemic has led to widespread shortages of personal protective equipment (PPE) for healthcare workers, including of N95 masks (filtering facepiece respirators; FFRs). These masks are intended for single use but their sterilization and subsequent reuse has the potential to substantially mitigate shortages. Here we investigate PPE sterilization using ionized hydrogen peroxide (iHP), generated by SteraMist equipment (TOMI; Frederick, MD), in a sealed environment chamber. The efficacy of sterilization by iHP was assessed using bacterial spores in biological indicator assemblies. After one or more iHP treatments, five models of N95 masks from three manufacturers were assessed for retention of function based on their ability to form an airtight seal (measured using a quantitative fit test) and filter aerosolized particles. Filtration testing was performed at a university lab and at a National Institute for Occupational Safety and Health (NIOSH) pre-certification laboratory. The data demonstrate that N95 masks sterilized using SteraMist iHP technology retain filtration efficiency up to ten cycles, the maximum number tested to date. A typical iHP environment chamber with a volume of ~ 80 m3 can treat ~ 7000 masks and other items (e.g. other PPE, iPADs), making this an effective approach for a busy medical center.

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Year:  2021        PMID: 33479334      PMCID: PMC7819989          DOI: 10.1038/s41598-021-81365-7

Source DB:  PubMed          Journal:  Sci Rep        ISSN: 2045-2322            Impact factor:   4.379


  14 in total

Review 1.  Use of hydrogen peroxide as a biocide: new consideration of its mechanisms of biocidal action.

Authors:  Ezra Linley; Stephen P Denyer; Gerald McDonnell; Claire Simons; Jean-Yves Maillard
Journal:  J Antimicrob Chemother       Date:  2012-04-24       Impact factor: 5.790

2.  Use of vaporized hydrogen peroxide decontamination during an outbreak of multidrug-resistant Acinetobacter baumannii infection at a long-term acute care hospital.

Authors:  Amy Ray; Federico Perez; Amanda M Beltramini; Marta Jakubowycz; Patricia Dimick; Michael R Jacobs; Kathy Roman; Robert A Bonomo; Robert A Salata
Journal:  Infect Control Hosp Epidemiol       Date:  2010-10-25       Impact factor: 3.254

3.  Impact of multiple consecutive donnings on filtering facepiece respirator fit.

Authors:  Michael S Bergman; Dennis J Viscusi; Ziqing Zhuang; Andrew J Palmiero; Jeffrey B Powell; Ronald E Shaffer
Journal:  Am J Infect Control       Date:  2011-08-23       Impact factor: 2.918

4.  Cold plasma-activated hydrogen peroxide aerosol inactivates Escherichia coli O157:H7, Salmonella Typhimurium, and Listeria innocua and maintains quality of grape tomato, spinach and cantaloupe.

Authors:  Yunbin Jiang; Kimberly Sokorai; Georgios Pyrgiotakis; Philip Demokritou; Xihong Li; Sudarsan Mukhopadhyay; Tony Jin; Xuetong Fan
Journal:  Int J Food Microbiol       Date:  2017-03-10       Impact factor: 5.277

5.  Low-temperature decontamination with hydrogen peroxide or chlorine dioxide for space applications.

Authors:  T Pottage; S Macken; K Giri; J T Walker; A M Bennett
Journal:  Appl Environ Microbiol       Date:  2012-04-06       Impact factor: 4.792

6.  Use of hydrogen peroxide vapor for deactivation of Mycobacterium tuberculosis in a biological safety cabinet and a room.

Authors:  Leslie Hall; Jonathan A Otter; John Chewins; Nancy L Wengenack
Journal:  J Clin Microbiol       Date:  2006-12-13       Impact factor: 5.948

7.  Potential demand for respirators and surgical masks during a hypothetical influenza pandemic in the United States.

Authors:  Cristina Carias; Gabriel Rainisch; Manjunath Shankar; Bishwa B Adhikari; David L Swerdlow; William A Bower; Satish K Pillai; Martin I Meltzer; Lisa M Koonin
Journal:  Clin Infect Dis       Date:  2015-05-01       Impact factor: 9.079

8.  A scalable method of applying heat and humidity for decontamination of N95 respirators during the COVID-19 crisis.

Authors:  Loïc Anderegg; Cole Meisenhelder; Chiu Oan Ngooi; Lei Liao; Wang Xiao; Steven Chu; Yi Cui; John M Doyle
Journal:  PLoS One       Date:  2020-07-01       Impact factor: 3.240

9.  Decontamination and reuse of surgical masks and N95 filtering facepiece respirators during the COVID-19 pandemic: A systematic review.

Authors:  Kachorn Seresirikachorn; Vorakamol Phoophiboon; Thitiporn Chobarporn; Kasenee Tiankanon; Songklot Aeumjaturapat; Supinda Chusakul; Kornkiat Snidvongs
Journal:  Infect Control Hosp Epidemiol       Date:  2020-07-30       Impact factor: 3.254

10.  Evaluation of five decontamination methods for filtering facepiece respirators.

Authors:  Dennis J Viscusi; Michael S Bergman; Benjamin C Eimer; Ronald E Shaffer
Journal:  Ann Occup Hyg       Date:  2009-10-04
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  8 in total

Review 1.  Hydrogen Peroxide Methods for Decontaminating N95 Filtering Facepiece Respirators.

Authors:  David Rempel; John Henneman; James Agalloco; Jill Crittenden
Journal:  Appl Biosaf       Date:  2021-06-02

Review 2.  Recent developments in filtration media and respirator technology in response to COVID-19.

Authors:  Peter L Wang; Alex Roschli; M Parans Paranthaman; Merlin Theodore; Corson L Cramer; Chris Zangmeister; Yuepeng Zhang; Jeffrey J Urban; Lonnie Love
Journal:  MRS Bull       Date:  2021-09-15       Impact factor: 4.882

Review 3.  Viricidal treatments for prevention of coronavirus infection.

Authors:  Manoj Khokhar; Dipayan Roy; Purvi Purohit; Manu Goyal; Puneet Setia
Journal:  Pathog Glob Health       Date:  2020-09-02       Impact factor: 2.894

4.  N95 reprocessing by low temperature sterilization with 59% vaporized hydrogen peroxide during the 2020 COVID-19 pandemic.

Authors:  Maimuna Jatta; Carolyn Kiefer; Harsh Patolia; Jin Pan; Charbel Harb; Linsey C Marr; Anthony Baffoe-Bonnie
Journal:  Am J Infect Control       Date:  2020-06-26       Impact factor: 2.918

5.  Effective inactivation of Bacillus atrophaeus spores and Escherichia coli on disposable face masks using ultraviolet laser irradiation.

Authors:  My-Chi Thi Nguyen; Huu-Quang Nguyen; Hanbyeol Jang; Sojung Noh; Youngku Sohn; Kiju Yee; Heesoo Jung; Jeongkwon Kim
Journal:  J Anal Sci Technol       Date:  2022-06-27

6.  Evaluation and comparison of three virucidal agents on inactivation of Nipah virus.

Authors:  Yi Huang; Shuqi Xiao; Donglin Song; Zhiming Yuan
Journal:  Sci Rep       Date:  2022-07-05       Impact factor: 4.996

7.  Evaluation of the effectiveness of UV-C dose for photoinactivation of SARS-CoV-2 in contaminated N95 respirator, surgical and cotton fabric masks.

Authors:  Patrícia Metolina; Lilian Gomes de Oliveira; Bruno Ramos; Yan de Souza Angelo; Paola Minoprio; Antonio Carlos Silva Costa Teixeira
Journal:  Photochem Photobiol Sci       Date:  2022-07-21       Impact factor: 4.328

8.  In-House Filtration Efficiency Assessment of Vapor Hydrogen Peroxide Decontaminated Filtering Facepiece Respirators (FFRs).

Authors:  Khaled Al-Hadyan; Ghazi Alsbeih; Ahmad Nobah; Jeffrey Lindstrom; Sawsan Falatah; Nawarh Faran; Salem Al-Ghamdi; Belal Moftah; Rashed Alhmaid
Journal:  Int J Environ Res Public Health       Date:  2021-07-04       Impact factor: 3.390
  8 in total

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