Construction of a Job Exposure Matrix to Dust, Fluoride, and Polycyclic Aromatic Hydrocarbons in the Norwegian Aluminum Industry using Prediction Models.

Annals of Occupational Hygiene Pub Date : 2015-11-01 Epub Date: 2015-09-25 DOI:10.1093/annhyg/mev069
Vidar Søyseth, Paul Henneberger, Mohammed Abbas Virji, Berit Bakke, Johny Kongerud
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引用次数: 2

Abstract

Background: The Norwegian aluminum industry developed and implemented a protocol for prospective monitoring of employees' exposure using personal samplers. We analyzed these data to develop prediction lines to construct a job exposure matrix (JEM) for the period 1986-1995.

Methods: The protocol for personal monitoring of exposure was implemented in all seven Norwegian aluminum plants in 1986 and continued until 1995. Personal samplers were used to collect total dust, fluorides, and total polycyclic aromatic hydrocarbons (PAH). In addition, exposure could be categorized according to process, i.e. prebake, Søderberg, and 'other'. We constructed four-dimensional JEMs characterized by: Plant, Job descriptor, Process, and Year. Totally 8074, 6734, and 3524 measurements were available for dust, fluorides, and PAH, respectively. The data were analyzed using linear mixed models with two-way interactions. The models were assessed using the Akaike criterion (AIC) and unadjusted R (2). The significance level was set to 10% (two-sided) for retaining variables in the model.

Results: In 1986, the geometric mean (95% confidence interval in parentheses) for total dust, total fluorides, and PAH were 3.18 (0.46-22.2) mg m(-3), 0.58 (0.085-4.00) mg m(-3), and 33.9 (2.3-504) µg m(-3), respectively. During 10 years of follow-up, the exposure to total dust, fluorides, and PAH decreased by 9.2, 11.7, and 14.9% per year, respectively. Each model encompassed from 49 to 72 significant components of the interaction terms. The interaction components were at least as important as the main effects, and 65 to 91% of the significant components of the interaction terms were time-dependent.

Conclusion: Our prediction models indicated that exposures were highly time-dependent. We expect that the time-dependent changes in exposure are of major importance for longitudinal studies of health effects in the aluminum industry.

Abstract Image

使用预测模型构建挪威铝工业粉尘、氟化物和多环芳烃的工作暴露矩阵。
背景:挪威铝业制定并实施了一项协议,用于使用个人采样器对员工的暴露进行前瞻性监测。我们对这些数据进行分析,建立预测线,构建1986-1995年期间的工作暴露矩阵(JEM)。方法:个人暴露监测方案于1986年在挪威所有7家铝厂实施,并一直持续到1995年。使用个人采样器收集总粉尘、氟化物和总多环芳烃(PAH)。此外,暴露可以根据过程进行分类,即预焙,Søderberg和“其他”。我们构建了以工厂、工作描述符、过程和年份为特征的四维JEMs。尘埃、氟化物和多环芳烃的测量值分别为8074、6734和3524。使用双向交互作用的线性混合模型对数据进行分析。采用赤池标准(AIC)和未调整R(2)对模型进行评估。为保留模型中的变量,显著性水平设为10%(双侧)。结果:1986年,总粉尘、总氟化物和多环芳烃的几何平均值(括号内为95%置信区间)分别为3.18 (0.46 ~ 22.2)mg m(-3)、0.58 (0.085 ~ 4.00)mg m(-3)和33.9(2.3 ~ 504)µg m(-3)。在10年的随访中,总粉尘、氟化物和多环芳烃的暴露量分别每年下降9.2%、11.7%和14.9%。每个模型包含交互项的49到72个重要组成部分。交互作用成分至少与主效应一样重要,交互作用项中65%到91%的重要成分是时间依赖的。结论:我们的预测模型显示暴露具有高度的时间依赖性。我们预计,暴露的时间依赖性变化对铝工业健康影响的纵向研究具有重要意义。
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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