Occupational Exposure of On-Shift Ottawa Firefighters to Flame Retardants and Polycyclic Aromatic Hydrocarbons.

IF 3.9 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Toxics Pub Date : 2024-09-17 DOI:10.3390/toxics12090677
William Papas, Rocio Aranda-Rodriguez, Xinghua Fan, Cariton Kubwabo, Janet S L Lee, Emma Fantin, Elita D Zheng, Jennifer L A Keir, Dave Matschke, Jules M Blais, Paul A White
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引用次数: 0

Abstract

Firefighters can be exposed to complex mixtures of airborne substances, including hazardous substances released during structural fires. This study employed silicone wristbands (SWBs) as passive samplers to investigate potential exposure to polycyclic aromatic hydrocarbons (PAHs) and flame retardants (FRs). SWBs were deployed at different areas of four fire stations, in four truck cabins, and at an office control location; they were also donned outside the jackets of 18 firefighters who responded to fire calls. Overall, office areas had significantly lower PAHs than fire station areas. Vehicle bays and truck cabins had significantly higher concentrations of low molecular weight (LMW) PAHs than sleeping and living room areas. For organophosphate ester flame retardants (OPFRs), tri-n-butyl phosphate (TnBP) and tris(1-chloro-2-propyl) phosphate (TCPP) were detected in all the samples; 2-ethylhexyl diphenyl phosphate (EHDPP) was more frequently detected in the fire station areas. Triphenyl phosphate (TPP) concentrations were highest in the truck cabin and office areas, and tris(1,3-dichloro-2-propyl)phosphate (TDCPP) was highest in truck cabins. Thirteen of 16 PAHs and nine of 36 OPFRs were detected in all the SWBs worn by firefighters, and tris (2-butoxyethyl) phosphate (TBEP) was the predominant OPFR. Levels of LMW PAHs were significantly lower when firefighters did not enter the fire. LMW PAHs, HMW (high molecular weight) PAHs, and EHDPP were significantly elevated when heavy smoke was reported. This work highlights the potential for occupational exposure to PAHs and flame retardants in some fire station areas; moreover, factors that may influence exposure during fire suppression. Whilst firefighters' occupational exposure to PAHs is likely related to fire suppression and exposure to contaminated gear and trucks, exposure to OPFRs may be more related to their presence in truck interiors and electronics.

渥太华轮班消防员对阻燃剂和多环芳烃的职业接触。
消防员可能会接触到复杂的空气传播物质混合物,包括结构性火灾中释放的有害物质。本研究采用硅胶腕带 (SWB) 作为被动采样器,调查可能接触到的多环芳烃 (PAH) 和阻燃剂 (FR)。我们在四个消防站的不同区域、四辆消防车的驾驶室和一个办公室控制点部署了硅胶腕带;还在 18 名接警消防员的外套外佩戴了硅胶腕带。总体而言,办公室区域的多环芳烃含量明显低于消防站区域。车辆停放处和卡车驾驶室的低分子量 (LMW) 多环芳烃浓度明显高于睡眠区和起居室。在有机磷酸酯类阻燃剂 (OPFR) 方面,所有样本中都检测到了磷酸三正丁酯 (TnBP) 和磷酸三(1-氯-2-丙基)酯 (TCPP);在消防站区域更经常检测到磷酸二苯基二乙基己酯 (EHDPP)。卡车驾驶室和办公室区域的磷酸三苯酯 (TPP) 浓度最高,卡车驾驶室的磷酸三(1,3-二氯-2-丙基)酯 (TDCPP) 浓度最高。在消防员穿戴的所有 SWB 中,检测到了 16 种 PAH 中的 13 种和 36 种 OPFR 中的 9 种,而磷酸三(2-丁氧基乙基)酯 (TBEP) 是最主要的 OPFR。当消防员没有进入火场时,低分子量 PAHs 的含量明显较低。当出现浓烟时,LMW PAHs、HMW(高分子量)PAHs 和 EHDPP 明显升高。这项研究强调了在某些消防站地区职业暴露于多环芳烃和阻燃剂的可能性;此外,灭火过程中可能影响暴露的因素。消防员职业暴露于多环芳烃可能与灭火以及暴露于受污染的装备和卡车有关,而暴露于阻燃剂则可能更多地与卡车内饰和电子设备中的阻燃剂有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Toxics
Toxics Chemical Engineering-Chemical Health and Safety
CiteScore
4.50
自引率
10.90%
发文量
681
审稿时长
6 weeks
期刊介绍: The Journal accepts papers describing work that furthers our understanding of the exposure, effects, and risks of chemicals and materials in humans and the natural environment as well as approaches to assess and/or manage the toxicological and ecotoxicological risks of chemicals and materials. The journal covers a wide range of toxic substances, including metals, pesticides, pharmaceuticals, biocides, nanomaterials, and polymers such as micro- and mesoplastics. Toxics accepts papers covering: The occurrence, transport, and fate of chemicals and materials in different systems (e.g., food, air, water, soil); Exposure of humans and the environment to toxic chemicals and materials as well as modelling and experimental approaches for characterizing the exposure in, e.g., water, air, soil, food, and consumer products; Uptake, metabolism, and effects of chemicals and materials in a wide range of systems including in-vitro toxicological assays, aquatic and terrestrial organisms and ecosystems, model mammalian systems, and humans; Approaches to assess the risks of chemicals and materials to humans and the environment; Methodologies to eliminate or reduce the exposure of humans and the environment to toxic chemicals and materials.
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