芝加哥人造石材制造商职业暴露于可吸入结晶二氧化硅 (RCS) 的调查--试点研究。

IF 1.5 4区 医学 Q4 ENVIRONMENTAL SCIENCES
Alissa DeVaughn, Leonard H T Go, Robert A Cohen, Yuan Shao
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引用次数: 0

摘要

人造石台面,俗称石英石或人造石台面,因其经久耐用和美观大方而大受欢迎。然而,由于其结晶二氧化硅含量高,这些台面的制造对工人的健康构成严重威胁,全球众多矽肺病例就是证明。这项研究旨在评估芝加哥石材加工工人接触可吸入结晶二氧化硅(RCS)的情况,并描述人造石粉尘的元素组成和物理特性。研究招募了当地两家石材作坊的八名专业石材加工人员。采用 NIOSH 7500 方法对 RCS 暴露水平进行了评估。现场收集了大量粉尘样本,使用 X 射线荧光 (XRF) 分析了粉尘的元素组成,并以化学氧化单位进行了报告。一套实时空气监测器用于测量粒度分布、颗粒物(PM)浓度和工作场所的环境条件。访问期间还发放了调查问卷,并记录了工人的活动。结果发现,工人工作场所的可吸入石英暴露量过大,时间加权平均 (TWA) 浓度从 11 微克/立方米到 203 微克/立方米不等,中位浓度为 90 微克/立方米。七个样本(78%)超过了 RCS 50 µg/m3 TWA-8 小时的职业接触限值。与天然石粉(30%)相比,人造石粉样本中的二氧化硅含量要高得多,二氧化硅的百分比从 56% 到 95% 不等。在涉及小型手工工具的活动中,90%以上(90.3-98.7%)的微粒尺寸小于 2.5 微米。访问期间没有发现使用呼吸保护装置的情况。这项研究为工程石材加工行业提供了第一手资料。研究结果揭示了一系列风险因素:RCS 浓度升高、工程石材中二氧化硅含量极高以及细颗粒物的高流行率。这些因素共同构成了对工人健康的重大风险,与大多数其他行业相比,这种风险是无与伦比的。研究结果突出表明,迫切需要采取监管措施,以更好地保护人造石加工行业工人的健康。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of occupational exposure to respirable crystalline silica (RCS) among engineered stone fabricators in Chicago-A pilot study.

Engineered stone countertops, popularly known as quartz or artificial stone countertops, have gained significant attraction due to their durability and aesthetic appeal. However, due to their high crystalline silica content, the fabrication of these countertops poses severe health risks to workers, as evidenced by numerous global cases of silicosis. The study aimed to assess occupational exposure to respirable crystalline silica (RCS) among fabricators in Chicago and characterize the elemental composition and physical properties of engineered stone dust. Eight professional fabricators from two local stone workshops were recruited for the study. The exposure levels to RCS were assessed using the NIOSH 7500 method. Bulk dust samples were collected on-site, and the elemental composition of the dust was analyzed using X-ray fluorescence (XRF) and reported in stoichiometric oxide units. A set of real-time air monitors was used to measure particle size distribution, particulate matter (PM) concentrations, and ambient conditions in the workplace. A questionnaire was administered, and worker activities were recorded during the visits. Workers were found to be overexposed to respirable quartz in their workplaces, with time-weighted averaged (TWA) concentrations ranging from 11 to 203 µg/m3, with a median concentration of 90 µg/m³. Seven samples (78%) exceeded the 50 µg/m3 TWA-8 hr occupational exposure limit for RCS. Engineered stone dust samples contain much higher silica content compared to natural stone dust (30%), with silica percentages ranging from 56% to 95%. Over 90% of the particles (90.3-98.7%) emitted from activities involving small hand tools were of size less than 2.5 µm. The use of respiratory protection was not observed during the visits. The study offers firsthand insights into the engineered stone fabrication industry. The findings reveal a combination of risk factors: elevated RCS concentrations, very high silica content in engineered stone, and a high prevalence of fine particles. These factors collectively pose significant health risks to workers that are unequaled in comparison to most other industries. The findings underscore the urgent need for regulatory measures to better protect workers' health in the engineered stone fabrication sector.

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来源期刊
Journal of Occupational and Environmental Hygiene
Journal of Occupational and Environmental Hygiene 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
3.30
自引率
10.00%
发文量
81
审稿时长
12-24 weeks
期刊介绍: The Journal of Occupational and Environmental Hygiene ( JOEH ) is a joint publication of the American Industrial Hygiene Association (AIHA®) and ACGIH®. The JOEH is a peer-reviewed journal devoted to enhancing the knowledge and practice of occupational and environmental hygiene and safety by widely disseminating research articles and applied studies of the highest quality. The JOEH provides a written medium for the communication of ideas, methods, processes, and research in core and emerging areas of occupational and environmental hygiene. Core domains include, but are not limited to: exposure assessment, control strategies, ergonomics, and risk analysis. Emerging domains include, but are not limited to: sensor technology, emergency preparedness and response, changing workforce, and management and analysis of "big" data.
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