柴油废气暴露中多环芳烃的特性分析与生物监测

Characterizing and biological monitoring of polycyclic aromatic hydrocarbons in exposures to diesel exhaust.

作者信息

Huang Wei, Smith Thomas J, Ngo Long, Wang Tong, Chen Hongqiao, Wu Fanggu, Herrick Robert F, Christiani David C, Ding Hui

机构信息

Harvard School of Public Health, Boston, Massachusetts 02115, Harvard Medical School, Brookline, Massachusetts 02446, USA.

出版信息

Environ Sci Technol. 2007 Apr 15;41(8):2711-6. doi: 10.1021/es062863j.

DOI:10.1021/es062863j

PMID:17533828

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are one of the most important and carcinogenic components in diesel exhaust (DE). Therefore, ambient PAHs concentrations were measured and characterized for work areas in a locomotive engine inspection plant. Pre- and post-shift urine samples and concurrent air samples were collected on 17 workers to measure the concentration of urinary 1-hydroxypyrene (1-OHP), a metabolite of pyrene. Increased urinary 1-OHP concentrations were observed over at least three consecutive sampling days. The biological kinetics of pyrene metabolism was studied with a one-compartment pharmokinetic model. The conversion rate and elimination rate of 1-OHP were estimated using nonlinear mixed-effects model, and validated with multiple nonlinear regression models by assessing the pattern of elimination rates of each worker separately. Urinary 1-OHP was confirmed to be a sensitive marker of PAHs exposure with mean half-life of 29 h in this population of Chinese workers. The study results would be beneficial to future occupational and environmental studies of PAH exposure.

摘要

多环芳烃（PAHs）是柴油机尾气（DE）中最重要的致癌成分之一。因此，对机车发动机检修厂的工作区域进行了环境PAHs浓度的测量和特征分析。采集了17名工人班前和班后的尿液样本以及同步的空气样本，以测量尿中芘的代谢产物1-羟基芘（1-OHP）的浓度。在至少连续三个采样日观察到尿中1-OHP浓度升高。用单室药代动力学模型研究了芘代谢的生物动力学。使用非线性混合效应模型估计1-OHP的转化率和消除率，并通过分别评估每个工人的消除率模式，用多个非线性回归模型进行验证。在这群中国工人中，尿中1-OHP被证实是PAHs暴露的敏感标志物，平均半衰期为29小时。研究结果将有助于未来关于PAH暴露的职业和环境研究。

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柴油废气暴露中多环芳烃的特性分析与生物监测

Characterizing and biological monitoring of polycyclic aromatic hydrocarbons in exposures to diesel exhaust.

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