CANJEM:基于过去专家对250多种物质暴露评估的普通人群职业暴露矩阵

0382 CANJEM: a general population job exposure matrix based on past expert assessments of exposure to over 250 agents

Occupational and Environmental Medicine · 2014
被引 4
ABS 3

中文导读

基于加拿大蒙特利尔四项病例对照研究中专家对31,780份工作的暴露评估,构建了覆盖303种职业、280种物质和四个时期的普通人群职业暴露矩阵,可用于流行病学中的暴露评估。

Abstract

<h3>Objectives</h3> To create a general population job-exposure matrix (JEM) from a database of expert assessments performed during four community-based case-control studies of cancer (lung, breast, brain, and multisite) conducted in Montreal since the 1980s. <h3>Method</h3> The expert assessments were performed by the same team of chemists, who assigned exposure to a predefined list of agents to each job held by subjects based on job histories and descriptions of tasks and work environment obtained through interview. The estimated metrics include measures of intensity, frequency and likelihood of exposure. The JEM dimensions include agent, occupation (Canadian, U.S., and international classifications) and era. For each cell, probability of exposure was computed as the proportion of individual jobs exposed. Among the exposed within a cell, CANJEM provides median frequency of exposure, the mode of exposure intensity categories and median time weighted intensity. <h3>Results</h3> CANJEM includes information from 6222 men and 2563 women, totalling 31 780 individual jobs held between 1921 and 2005, representing approximately 50 expert-years of exposure assessment. Well known agents among the most frequently encountered include carbon monoxide (22% of individual jobs exposed), organic solvents (17.5%), and formaldehyde (10.6%). The JEM covers 303 occupations, 280 agents, and 4 eras (&lt;1950, 1950–1969, 1970–1984, &gt;1984). Overall, 20% of the cells have a non-null proportion of jobs exposed, 12% with a proportion greater than 5%. <h3>Conclusions</h3> CANJEM constitutes one of the largest current sources of retrospective occupational exposure information in North America, useable to support exposure assessment efforts in epidemiology and estimate populations of workers exposed to harmful agents.

职业暴露流行病学癌症研究环境健康