Estimation of individual dermal and respiratory uptake of polycyclic aromatic hydrocarbons in 12 coke oven workers.

J G VanRooij, M M Bodelier-Bade, F J Jongeneelen
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引用次数: 188

Abstract

Twelve workers from a coke plant in The Netherlands participated in an intensive skin monitoring programme combined with personal air sampling and biological monitoring during five consecutive eight hour workshifts. The purpose of the study was to make a quantitative assessment of both the dermal and respiratory intake of polycyclic aromatic hydrocarbons (PAHs). Pyrene was used as a marker compound for both dermal and respiratory exposure to PAHs. The biological measure for the internal exposure to PAHs was urinary 1-OH-pyrene concentration. Measurements on exposure pads at six skin sites showed that mean total skin contamination of the 12 workers ranged between 21 and 166 micrograms pyrene a day. The dermal uptake of pyrene ranged between 4 and 34 micrograms/day, which was about 20% of the pyrene contamination on skin. The mean concentration of total pyrene in the breathing zone air of the 12 coke oven workers ranged from 0.1 to 5.4 micrograms/m3. The mean respiratory uptake of pyrene varied between 0.5 and 32.2 micrograms/day. Based on the estimates of the dermal and respiratory pyrene uptake it is concluded that an average 75% (range 28%-95%, n = 12) of the total absorbed amount of pyrene enters the body through the skin. Because of the difference in the pyrene:benzo(a)pyrene ratio between the air samples and the skin contamination samples, the dermal uptake of benzo(a)pyrene was also estimated. This was about 51% of the total absorbed amount (range 8%-92%, n = 12). The total excreted amount of urinary 1-OH-pyrene as a result of exposure to PAHs during the five consecutive workshifts varied between 36 and 239 nmol. A multiple regression model of the mass balance between pyrene dose (both dermal and respiratory) and 1-OH-pyrene excretion confirmed the relevance of the dermal exposure route. The variation in urinary 1-OH-pyrene excretion was determined more by the dermal pyrene dose than by the respiratory dose. The model showed an estimate of the percentage of the absorbed amount of pyrene that is metabolised and excreted as 1-OH-pyrene in urine. For the 12 workers this percentage varied between 13% and 49% depending on smoking habits and consumption of alcohol. The results of this study indicate that among coke oven workers, the skin is the main route of uptake of PAHs. Preventive measures to reduce exposure to PAHs should be focused more on the reduction of dermal contamination by PAHs than on the reduction of inhaled dose.

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12名焦炉工人皮肤和呼吸对多环芳烃吸收的评估。
来自荷兰一家焦炭厂的12名工人在连续5个8小时轮班期间参加了一项结合个人空气采样和生物监测的强化皮肤监测计划。本研究的目的是对多环芳烃(PAHs)的皮肤和呼吸摄入进行定量评估。芘被用作皮肤和呼吸接触多环芳烃的标记化合物。多环芳烃内暴露的生物学指标为尿1- oh -芘浓度。对六个皮肤部位暴露垫的测量显示,12名工人的平均皮肤污染总量在每天21至166微克芘之间。皮肤对芘的吸收量在4至34微克/天之间,约占皮肤上芘污染的20%。12名焦炉工人呼吸区空气中总芘的平均浓度为0.1至5.4微克/立方米。芘的平均呼吸吸收量在0.5至32.2微克/天之间变化。根据对皮肤和呼吸吸收芘的估计,得出的结论是,总吸收的芘中平均有75%(范围28%-95%,n = 12)是通过皮肤进入人体的。由于空气样本和皮肤污染样本之间的芘:苯并(a)芘比率的差异,还估计了苯并(a)芘的皮肤吸收量。约占总吸收量的51%(范围8% ~ 92%,n = 12)。在连续5个轮班期间,由于暴露于多环芳烃,尿中1- oh -芘的总排泄量在36至239 nmol之间变化。芘剂量(包括皮肤和呼吸)与1- oh -芘排泄之间的质量平衡的多元回归模型证实了皮肤暴露途径的相关性。尿中1- oh -芘排泄量的变化更多地由皮肤剂量决定,而不是由呼吸剂量决定。该模型显示了被代谢并以1- oh -芘形式在尿液中排出的芘的吸收量的百分比。对于这12名员工来说,这一比例在13%到49%之间,具体取决于吸烟习惯和饮酒习惯。本研究结果表明,在焦炉工人中,皮肤是摄取多环芳烃的主要途径。减少多环芳烃暴露的预防措施应更多地侧重于减少多环芳烃对皮肤的污染,而不是减少吸入剂量。
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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