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基于微观层面活动时间序列的农场工人子女居住环境非饮食暴露评估

Farmworker children's residential non-dietary exposure estimates from micro-level activity time series.

作者信息

Beamer Paloma I, Canales Robert A, Bradman Asa, Leckie James O

机构信息

Community, Environment and Policy, Mel and Enid Zuckerman College of Public Health, University of Arizona, Tucson, Arizona, USA.

出版信息

Environ Int. 2009 Nov;35(8):1202-9. doi: 10.1016/j.envint.2009.08.003. Epub 2009 Sep 9.

DOI:10.1016/j.envint.2009.08.003
PMID:19744713
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2775084/
Abstract

Farmworkers' children may have increased pesticide exposure through dermal absorption and non-dietary ingestion, routes that are difficult to measure and model. The Cumulative Aggregate Simulation of Exposure (CASE) model, integrates the complexity of human behavior and variability of exposure processes by combining micro-level activity time series (MLATS) and mechanistic exposure equations. CASE was used to estimate residential non-dietary organophosphate pesticide exposure (i.e., inhalation, dermal, and non-dietary ingestion) to California farmworker children and evaluate the micro-activity approach. MLATS collected from children and distributions developed from pesticide measurements in farmworkers' residences served as inputs. While estimated diazinon exposure was greater for inhalation, chlorpyrifos exposure was greater for the other routes. Greater variability existed between children (sigma(B)(2)=0.22-0.39) than within each child's simulations (sigma(W)(2)=0.01-0.02) for dermal and non-dietary ingestion. Dermal exposure simulations were not significantly different than measured values from dosimeters worn by the children. Non-dietary ingestion exposure estimates were comparable to duplicate diet measurements, indicating this route may contribute substantially to aggregate exposure. The results suggest the importance of the micro-activity approach for estimating non-dietary exposure. Other methods may underestimate exposure via these routes. Model simulations can be used to identify at-risk children and target intervention strategies.

摘要

农场工人的子女可能通过皮肤吸收和非饮食摄入增加农药接触量,而这些途径难以测量和建模。累积暴露综合模拟(CASE)模型通过结合微观层面活动时间序列(MLATS)和机械暴露方程,整合了人类行为的复杂性和暴露过程的变异性。CASE模型用于估计加利福尼亚州农场工人子女的住宅非饮食有机磷农药暴露(即吸入、皮肤接触和非饮食摄入),并评估微观活动方法。从儿童收集的MLATS以及农场工人住宅中农药测量得出的分布用作输入。虽然二嗪农的吸入暴露估计值更高,但毒死蜱在其他途径的暴露更高。对于皮肤接触和非饮食摄入,儿童之间的变异性(sigma(B)(2)=0.22 - 0.39)大于每个儿童模拟内部的变异性(sigma(W)(2)=0.01 - 0.02)。皮肤接触模拟与儿童佩戴的剂量计测量值无显著差异。非饮食摄入暴露估计值与重复饮食测量值相当,表明该途径可能对总暴露有很大贡献。结果表明微观活动方法在估计非饮食暴露方面的重要性。其他方法可能低估了通过这些途径的暴露。模型模拟可用于识别高危儿童并确定干预策略。

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