SYN-JEM: A Quantitative Job-Exposure Matrix for Five Lung Carcinogens.

Annals of Occupational Hygiene Pub Date : 2016-08-01 Epub Date: 2016-06-09 DOI:10.1093/annhyg/mew034
Susan Peters, Roel Vermeulen, Lützen Portengen, Ann Olsson, Benjamin Kendzia, Raymond Vincent, Barbara Savary, Jérôme Lavoué, Domenico Cavallo, Andrea Cattaneo, Dario Mirabelli, Nils Plato, Joelle Fevotte, Beate Pesch, Thomas Brüning, Kurt Straif, Hans Kromhout
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Abstract

Objective: The use of measurement data in occupational exposure assessment allows more quantitative analyses of possible exposure-response relations. We describe a quantitative exposure assessment approach for five lung carcinogens (i.e. asbestos, chromium-VI, nickel, polycyclic aromatic hydrocarbons (by its proxy benzo(a)pyrene (BaP)) and respirable crystalline silica). A quantitative job-exposure matrix (JEM) was developed based on statistical modeling of large quantities of personal measurements.

Methods: Empirical linear models were developed using personal occupational exposure measurements (n = 102306) from Europe and Canada, as well as auxiliary information like job (industry), year of sampling, region, an a priori exposure rating of each job (none, low, and high exposed), sampling and analytical methods, and sampling duration. The model outcomes were used to create a JEM with a quantitative estimate of the level of exposure by job, year, and region.

Results: Decreasing time trends were observed for all agents between the 1970s and 2009, ranging from -1.2% per year for personal BaP and nickel exposures to -10.7% for asbestos (in the time period before an asbestos ban was implemented). Regional differences in exposure concentrations (adjusted for measured jobs, years of measurement, and sampling method and duration) varied by agent, ranging from a factor 3.3 for chromium-VI up to a factor 10.5 for asbestos.

Conclusion: We estimated time-, job-, and region-specific exposure levels for four (asbestos, chromium-VI, nickel, and RCS) out of five considered lung carcinogens. Through statistical modeling of large amounts of personal occupational exposure measurement data we were able to derive a quantitative JEM to be used in community-based studies.

SYN-JEM:五种肺部致癌物质的定量工作暴露矩阵。
目的:在职业暴露评估中使用测量数据可以对可能的暴露-反应关系进行更多的定量分析。我们介绍了对五种肺致癌物(即石棉、铬-VI、镍、多环芳烃(其代表物苯并(a)芘(BaP)和可吸入结晶二氧化硅)的定量暴露评估方法。)在对大量个人测量数据进行统计建模的基础上,开发了定量工作暴露矩阵(JEM):方法:利用来自欧洲和加拿大的个人职业暴露测量数据(n = 102306),以及工作(行业)、采样年份、地区、每种工作的先验暴露等级(无暴露、低暴露和高暴露)、采样和分析方法以及采样持续时间等辅助信息,建立了经验线性模型。模型的结果被用于创建一个联合环境监测模型,对各工作、年份和地区的暴露水平进行定量估算:从 20 世纪 70 年代到 2009 年,所有物剂的时间趋势均呈下降趋势,从个人接触苯并[a]芘和镍的每年-1.2%到接触石棉的每年-10.7%(石棉禁令实施前)。暴露浓度的地区差异(根据测量工作、测量年份、采样方法和持续时间进行调整)因物剂而异,从六价铬的 3.3 倍到石棉的 10.5 倍不等:我们估算了五种肺致癌物质中四种(石棉、六价铬、镍和 RCS)的特定时间、特定工作和特定地区的暴露水平。通过对大量个人职业暴露测量数据进行统计建模,我们得出了定量的 JEM,可用于基于社区的研究。
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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