Biomonitoring for Exposure Assessment to Styrene in the Fibreglass Reinforced Plastic Industry: Determinants and Interferents.

Annals of Occupational Hygiene Pub Date : 2015-10-01 Epub Date: 2015-07-15 DOI:10.1093/annhyg/mev047
Rossana Claudia Bonanni, Maria Pia Gatto, Enrico Paci, Andrea Gordiani, Monica Gherardi, Giovanna Tranfo
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引用次数: 10

Abstract

Fifty-eight workers exposed to styrene were monitored in four fibreglass reinforced plastic industries of Central Italy. The aim of the study was to explore the factors that can influence the levels of styrene exposure biomarkers of the workers and the aspects that might interfere with the exposure assessment measures, such as the co-exposure to acetone. Personal monitoring of professional exposure to airborne styrene and acetone was carried out by Radiello samplers and GC/MS analysis. Biological monitoring was performed by the determination of urinary metabolites, mandelic (MA), and phenylglyoxylic (PGA) acids with HPLC/MS/MS and unmetabolized styrene in saliva and venous blood by HS/GC/MS. The median values of the four sites ranged between 24.1 to 94.0mg m(-3) and 7.3 to 331.1mg g(-1) creatinine for airborne styrene and MA + PGA, respectively. A good linear correlation was found between styrene in air and its urinary metabolites (r = 0.854). The median value for airborne styrene was found to exceed the (Threshold Limit Value - Time Weighted Average) of 85 mg m(-3) in one site for all the workers and in two if only moulders are considered. The multiple linear regression model showed that the determinants of urinary MA + PGA excretion were the type of process, workers' tasks, level of acetone co-exposure, and the use of respiratory protection devices. Data show that the simultaneous exposure to acetone modify the styrene metabolism with a reduction in the levels of (MA + PGA) excreted. A significant linear log-correlation was found between salivary levels of styrene and blood concentration (r = 0.746) sampled at the same t x time.

玻璃钢工业中苯乙烯暴露评估的生物监测:决定因素和干扰因素。
对意大利中部四个玻璃纤维增强塑料工业中58名接触苯乙烯的工人进行了监测。该研究的目的是探索影响工人苯乙烯暴露生物标志物水平的因素,以及可能干扰暴露评估措施的方面,如共同暴露于丙酮。通过Radiello采样器和GC/MS分析,对专业人员接触空气中的苯乙烯和丙酮进行了个人监测。生物监测采用HPLC/MS/MS法测定尿液代谢物、苯乙醛酸(MA)和苯乙醛酸(PGA),采用HS/GC/MS法测定唾液和静脉血中未代谢苯乙烯。四个位点对苯乙烯和MA + PGA的肌酸酐的中位值分别为24.1 ~ 94.0mg m(-3)和7.3 ~ 331.1mg g(-1)。空气中苯乙烯与其尿液代谢物呈良好的线性相关(r = 0.854)。空气中苯乙烯的中位数发现在一个地点的所有工人中超过了85毫克(-3)的(阈值限值-时间加权平均值),如果只考虑模具,则在两个地点。多元线性回归模型显示,尿MA + PGA排泄的决定因素是工艺类型、工人工作任务、丙酮共暴露水平和呼吸保护装置的使用。数据表明,同时暴露于丙酮改变了苯乙烯的代谢,减少了(MA + PGA)的排泄水平。在同一时间采样的唾液苯乙烯水平与血液浓度之间存在显著的线性对数相关(r = 0.746)。
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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