1. Development of a methodology for the quantification of reaerosolization of a biological contaminate surrogate particle from a military uniform fabric.
- Author
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Cooksey, George, Slagley, Jeremy, Cooper, Casey, Lewis, Douglas, and Helm, Alisha
- Subjects
PARTICULATE matter ,UNIFORMS ,EXPERIMENTAL design ,AEROSOLS ,CONFIDENCE intervals ,DECONTAMINATION (From gases, chemicals, etc.) ,MICROSCOPY ,HEALTH of military personnel ,EMERGENCY medical services ,RESEARCH funding ,DATA analysis software ,ULTRAVIOLET radiation ,MILITARY personnel - Abstract
In a mass casualty medical evacuation after a bioaerosol (BA) dispersal event, a decontamination (DC) method is needed that can both decontaminate and prevent biological particle (BP) re-aerosolization (RA) of contaminated clothes. However, neither the efficacy of current DC methods nor the risk of BP RA is greatly explored in the existing literature. The goals of this study were to develop a repeatable method to quantify the RA of a biological contaminant off military uniform fabric swatches and to test the efficacy of one DC protocol (high-volume, low-pressure water) using 1 µm polystyrene latex (PSL) spheres as a surrogate. A four-step methodology was developed: contamination using a Collison Nebulizer; RA using a laboratory mixer and aerosol collection using an inhalable air sampler with a polyvinyl chloride filter; DC using a gravity-fed water shower; and quantification using ultraviolet microscopy via both visual and computer techniques. All results for uncontaminated control samples showed little to no presence of PSL sphere-like particles, while the contaminated experimental trials showed that RA was much lower after DC with water at the 99% confidence level (p-value = 0.0081). The water DC showed an average ∼73% reduction in particle RA, along with a change in air sampler filter deposition patterns from aerosol-like (before DC) to droplet-like (after DC). The fluorescent sphere contamination method for testing the DC residual risk of RA was repeatable and successful. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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