工作暴露矩阵(AsbJEM)的发展,以估计职业暴露于石棉在澳大利亚。

Annals of Occupational Hygiene Pub Date : 2015-07-01 Epub Date: 2015-04-03 DOI:10.1093/annhyg/mev017
Svein C van Oyen, Susan Peters, Helman Alfonso, Lin Fritschi, Nicholas H de Klerk, Alison Reid, Peter Franklin, Len Gordon, Geza Benke, Arthur W Musk
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引用次数: 38

摘要

导言:在澳大利亚,关于石棉的职业暴露数据有限且不完整,因此对疾病风险和病因归因的估计通常是根据非特定于当地条件的数据计算出来的。目的:开发一个工作暴露矩阵(AsbJEM)来估计澳大利亚的职业石棉暴露水平,优化利用现有的暴露数据。方法:向一个由三名当地工业卫生学家组成的专家小组提供了澳大利亚所有可获得的接触数据档案以及有关工业实践和控制的信息,该专家小组对当地和国际工作实践有全面的了解。专家小组估计了不同职业、行业和时间段的石棉暴露情况。估计了强度和频率等级,以便能够计算每个时间段每个职业-行业组合的年暴露水平。石棉暴露强度的两个指标(模式和峰值)被用来解释不同职业之间的不同暴露模式。此外,还确定了每种情况下可能使用的石棉纤维类型。结果:在四个时期(1943-1966;1967 - 1986;1987 - 2003;≥2004)。据估计,石棉制造业、造船厂和绝缘行业的工人平均暴露量最高。直到1986年,估计有46个职业-行业组合的暴露量超过了目前澳大利亚的0.1 f ml(-1)暴露标准。超过90%的暴露职业被认为接触过石棉品种的混合物,包括青橄榄石。结论:AsbJEM提供了自1943年以来澳大利亚工作岗位石棉暴露水平的实证量化估计。这种接触评估应用将有助于提高对石棉相关疾病的理解和预测以及疾病病因的归因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a Job-Exposure Matrix (AsbJEM) to Estimate Occupational Exposure to Asbestos in Australia.

Introduction: Occupational exposure data on asbestos are limited and poorly integrated in Australia so that estimates of disease risk and attribution of disease causation are usually calculated from data that are not specific for local conditions.

Objective: To develop a job-exposure matrix (AsbJEM) to estimate occupational asbestos exposure levels in Australia, making optimal use of the available exposure data.

Methods: A dossier of all available exposure data in Australia and information on industry practices and controls was provided to an expert panel consisting of three local industrial hygienists with thorough knowledge of local and international work practices. The expert panel estimated asbestos exposures for combinations of occupation, industry, and time period. Intensity and frequency grades were estimated to enable the calculation of annual exposure levels for each occupation-industry combination for each time period. Two indicators of asbestos exposure intensity (mode and peak) were used to account for different patterns of exposure between occupations. Additionally, the probable type of asbestos fibre was determined for each situation.

Results: Asbestos exposures were estimated for 537 combinations of 224 occupations and 60 industries for four time periods (1943-1966; 1967-1986; 1987-2003; ≥2004). Workers in the asbestos manufacturing, shipyard, and insulation industries were estimated to have had the highest average exposures. Up until 1986, 46 occupation-industry combinations were estimated to have had exposures exceeding the current Australian exposure standard of 0.1 f ml(-1). Over 90% of exposed occupations were considered to have had exposure to a mixture of asbestos varieties including crocidolite.

Conclusion: The AsbJEM provides empirically based quantified estimates of asbestos exposure levels for Australian jobs since 1943. This exposure assessment application will contribute to improved understanding and prediction of asbestos-related diseases and attribution of disease causation.

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