Analysis of SteraMist ionized hydrogen peroxide technology in the sterilization of N95 respirators and other PPE: a quality improvement study

  1. Avilash K. Cramer
  2. Deborah Plana
  3. Helen Yang
  4. Mary M. Carmack
  5. Enze Tian
  6. Michael S. Sinha
  7. David Krikorian
  8. David Turner
  9. Jinhan Mo
  10. Ju Li
  11. Rajiv Gupta
  12. Heather Manning
  13. Florence T. Bourgeois
  14. Sherry H. Yu
  15. Peter K. Sorger
  16. Nicole R. LeBoeuf
1 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

Objective

The COVID-19 pandemic has led to widespread shortages of personal protective equipment (PPE) for healthcare workers, including filtering facepiece respirators (FFRs) such as N95 masks. These masks are normally intended for single use, but their sterilization and subsequent reuse could substantially mitigate a world-wide shortage.

Design

Quality assurance.

Setting

A sealed environment chamber installed in the animal facility of an academic medical center.

Interventions

One to five sterilization cycles using ionized hydrogen peroxide (iHP), generated by SteraMist® equipment (TOMI; Frederick, MD).

Main outcome measures

Personal protective equipment, including five N95 mask models from three manufacturers, were evaluated for efficacy of sterilization following iHP treatment (measured with bacterial spores in standard biological indicator assemblies). Additionally, N95 masks were assessed for their ability to efficiently filter particles down to 0.3µm and for their ability to form an airtight seal using a quantitative fit test. Filtration efficiency was measured using ambient particulate matter at a university lab and an aerosolized NaCl challenge at a National Institute for Occupational Safety and Health (NIOSH) pre-certification laboratory.

Results

The data demonstrate that N95 masks sterilized using SteraMist iHP technology retain function up to five cycles, the maximum number tested to date. Some but not all PPE could also be sterilized using an iHP environmental chamber, but pre-treatment with a handheld iHP generator was required for semi-enclosed surfaces such as respirator hoses.

Conclusions

A typical iHP environment chamber with a volume of ~80 m3 can treat ~7000 masks per day, as well as other items of PPE, making this an effective approach for a busy medical center.

Related articles

Related articles are currently not available for this article.