【职业中毒与生物监测研究】。

Yuko Yamano
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引用次数: 0

摘要

目的:2023年4月,日本引入了一种新的化学物质监管体系。与规定的规则不同,新制度没有具体规定针对个别物质的任何具体措施,而是基于自愿实施措施以减少接触所有危险/有害化学物质的健康管理。关于具体方法,将主要通过测量工作环境来阐明暴露情况。然而,也应当考虑生物监测的必要性。本研究旨在通过回顾职业中毒生物监测方法随时间的变化来确定生物监测的重要性。方法:介绍作者研究的几种化合物(甲基溴、多环芳烃和多氯二苯醚)的职业中毒情况及相应的生物监测方法。还介绍了日本职业健康学会职业中毒和生物监测研究小组的历史,以及生物监测的变化。结果:在职业中毒与生物监测研究组的讲座中,介绍了不同时期职业中毒的区域和接触化学物质引起的职业癌症病例。这些讲座表明,尽管生物监测以前主要通过测量暴露物质的尿液代谢物来实现,但随着暴露性质的变化,所使用的监测方法也发生了变化,从而开发出了检测痕量、低浓度和混合暴露的新工具。结论:职业场所化学物品作业人员的健康管理将向自主管理转变。然而,应该注意的是,只有生物监测才能检测和证明真正的暴露。特别是,对于怀疑通过皮肤吸收的物质,有必要通过生物监测进行风险评估,所使用的测量方法应继续发展和完善。生物监测的重要性将继续增加。
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[Research on Occupational Poisoning and Biological Monitoring].

Objective: A new system for the regulation of chemical substances was introduced in Japan in April 2023. Unlike delineated rules, the new system does not specify any specific measures for individual substances, but is rather based on the management of health through the voluntary implementation of measures in order to reduce exposure to all dangerous/hazardous chemical substances. Regarding specific methods, exposures will be mainly elucidated through the measurement of a work environment. However, the necessity of biological monitoring should also be considered. This study aimed to identify the importance of biological monitoring by reviewing changes made over time in biological monitoring methods used for occupational poisoning.

Method: The study presents occupational poisoning by several compounds (methyl bromide, polycyclic aromatic hydrocarbons, and MOCA) and the corresponding biological monitoring methods utilized, as researched by the author. Changes in biological monitoring based on the history of the Study Group on Occupational Poisoning and Biological Monitoring of the Japan Society for Occupational Health are also introduced.

Results: The areas of occupational poisoning at different times and cases of occupational cancer caused by exposure to chemical substances were presented in lectures held by the Study Group on Occupational Poisoning and Biological Monitoring. These lectures showed that although biological monitoring was previously implemented primarily by measuring the urinary metabolites of the exposed substance, the monitoring methods used have changed as the nature of exposure has changed, leading to the development of new tools that detect trace, low concentration, and mixed exposures.

Conclusion: The health management of workers handling chemical substances at occupational sites will be shifted to autonomous management. However, it should be noted that only biological monitoring can detect and prove true exposure. Particularly, risk assessment by biological monitoring is necessary for substances that are suspected to be absorbed through the skin, and the measurement methods used should continue to be developed and refined. The significance of biological monitoring will continue to increase.

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