key: cord-0823174-kg2swck6
authors: Wild, Evan; Zasso, Fabricio B.; You-Ten, Kong Eric
title: Are the garment seams a potential source of breach in level-4 personal protective equipment gowns?
date: 2021-02-23
journal: Can J Anaesth
DOI: 10.1007/s12630-021-01913-7
sha: 6bf7516a95de760516b6c6d110c204661521bd72
doc_id: 823174
cord_uid: kg2swck6

nan

Personal protective equipment (PPE) is essential for reducing potentially life-threatening infections in healthcare workers, as highlighted by the recent transmission of severe acute respiratory syndrome coronavirus 2. 1 The Association for the Advancement of Medical Instrumentation has classified surgical gowns into four categories based on the level of protection they offer, with level 1 protecting against only water spray contact, and level 4 protecting against blood and virus penetration under pressure for limited time periods. 2 The recognition of wearing higher protection level gowns (level 4) during high-risk situations, such as aerosol-generating medical procedures, has recently been highlighted. 3 Shortages of single-use high-level PPE have been well reported, 4 with many institutions opting for various reusable PPE gowns of various protection levels. 5 To inform our strategy for using higher protection level gowns in high-risk situations, we simulated the spread of cough-generated particles to investigate the degree to which aerosols can penetrate gowns of various protective levels.

We prepared an aerosolizing contrast medium consisting of the ink core of two yellow highlighter pens (Sharpie; Atlanta, GA, USA) that were left soaking for two hours in 250 mL water. This medium was then placed into an aerosol-generating device (Eyeglass Lens Spray Bottle Bloor Optical, Toronto, ON, Canada). The outer surface of each gown's body was sprayed twice with the medium from 30 cm. A single investigator ran a finger on the inner surface of the gown with clean nitrile gloves (Pri-Med, Edmonton, AB, Canada) to assess whether any of the aerosolized medium had penetrated to the gown interior. A blacklight flashlight (Vanksy 51Led UV Flashlight, VanskytechÒ, Shenzen, China) was used to visualize the aerosolized contrast medium ''glowing'' on the gloves to determine contamination of the gown's interior. We assessed four types of waterproof gown used in our institution: 1) level-2 reusable gowns (K-Bro Linen We observed no penetration of the contrast fluid to the gowns' inner surfaces when the aerosolized medium made contact with the outer main body. In all level-2 gowns (n = 3/3, K-Bro Linen), two level-4 reusable gowns (n = 2/4, Lac-Mac, Figure, panels A-C), and one level-4 disposable gown (n = 1/3, Sirus, Figure, panels D-F), we observed transfer of the contrast fluid on a gloved finger pressed along the interior seams, suggesting contamination along the seam lines. Contamination of the interior seam lines was not observed immediately, but occurred ten minutes after exposure to the aerosolized contrast medium.

Based on our findings, we continue to advocate wearing higher-level gowns in high-risk situations. Nevertheless, our findings raise the question of whether the seam line of the main body of gowns can potentially serve as a structural route through which contaminated aerosols generated during high-risk procedures penetrate and contaminate the interior of procedural surgical gowns. We recognize limitations in our study. Firstly, this was a qualitative and not quantitative study. Further instruments to measure droplet size and count would be needed for quantitative analysis. Furthermore, our study investigated only gross macroscopic but not microscopic contamination. Our method of aerosolization remains limited in that it may not accurately represent a cough in terms of droplet size or aerosolizing potential.

Disclosures None.

Editorial responsibility This submission was handled by Dr. Hilary P. Grocott, Former Editor-in-Chief, Canadian Journal of Anesthesia.

Sirus F Figure 

Intubation and ventilation amid the COVID-19 outbreak: Wuhan's Experience

Food and Drug Administration

Personal protective equipment (PPE) for both anesthesiologists and other airway managers: principles and practice during the COVID-19 pandemic

Shortage of personal protective equipment endangering health workers worldwide

Centres for Disease Control and Prevention. Strategies for Optimizing the Supply of Isolation Gowns

Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations