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Measuring Short-Term Exposures to H2O2 Among Exposed Workers; A Feasibility Study. | LitMetric

Measuring Short-Term Exposures to H2O2 Among Exposed Workers; A Feasibility Study.

Ann Work Expo Health

Department of Occupational and Environmental Health, Center for Primary Care and Public Health (Unisanté), Affiliated to University of Lausanne, Route de la Corniche 2, 1066 Epalinges-Lausanne, Switzerland.

Published: November 2022

AI Article Synopsis

  • Hydrogen peroxide (H2O2) is commonly used in hair coloring and disinfection but can cause airway irritation and inflammation due to reactive oxygen species generated from exposure.
  • Current measurement methods for airborne H2O2 are insufficient for evaluating low-level exposures, leading to gaps in safety assessments for workers in environments like salons and bottling companies.
  • The study proposes two sensitive measurement approaches: luminol chemiluminescence to quantify H2O2 and a photonic sensor to assess total oxidative potential, with findings indicating a need for improved detection methods to protect workers from respiratory issues linked to oxidizing chemicals.

Article Abstract

Hydrogen peroxide (H2O2) is a strong oxidizing agent often used in hair coloring and as a component in disinfecting and bleaching processes. Exposures to H2O2 generate reactive oxygen species (ROS) that can cause significant airway irritation and inflammation. Even though workers have reported symptoms associated with sensitivity and irritation from acute exposures below the H2O2 occupational exposure levels (OELs), a lack of sensitive analytical methods for measuring airborne concentrations currently prevents evaluating low or peak H2O2 exposures. To fill these gaps, we propose two different sensitive approaches: (i) luminol chemiluminescence (CL) to specifically measure H2O2; and (ii) photonic sensor method based on the ferrous-xylenol orange assay to evaluate total oxidative potential (OP), a measure of ROS in sampled air. We chose two exposure scenarios: hairdressers preparing and applying hair color to clients (both in simulated and field environments) and workers operating disinfecting cycles at a bottling company. Hair coloring took about 1 h for each client, and the application of the coloring product generated the highest H2O2 concentrations. OP values were highly correlated with H2O2 concentrations (CL measurement) and allowed peak measurements as low as 6 µg m-3 of H2O2 concentrations. The bottling company used a disinfectant containing H2O2, acetic acid and peracetic acid (PAA) in an enclosed process. The photonic sensor was immediately saturated. The CL results showed that the process operator had the highest exposures during a 15-min cycle. There is still a need to develop these direct reading methods for operating in the field, but we believe that in the future an OEL for OP could protect workers from developing airway irritation and inflammation by reducing exposures to oxidizing chemicals.

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Source
http://dx.doi.org/10.1093/annweh/wxac060DOI Listing

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