一种新型化学物质联合暴露限值方法的应用:体外设计的现场研究
Application of a novel exposure limit approach for co-exposure of chemicals: a field study by in-vitro design.
作者信息
Vahabi Shekarloo Masoomeh, Panjali Zahra, Mehrifar Younes, Ramezanifar Soleiman, Naziri Seyed Husein, Ghasemi Koozekonan Aysa, Moradpour Zahra, Zendehdel Rezvan
机构信息
Student Research Committee, Department of Occupational Health and Safety, School of Public Health and Safety, Shahid Beheshti University of Medical Sciences, Tehran, Iran.
Department of Occupational Health Engineering, Faculty of Health and Medical Engineering, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran.
出版信息
Int J Environ Health Res. 2023 Dec;33(12):1269-1277. doi: 10.1080/09603123.2022.2084513. Epub 2022 Jun 8.
This study has suggested an occupational exposure limit (OEL) based on the co-exposure approach in an iron-foundry industry. Respirable dust was collected in an iron casting industry using the NIOSH 0600 method. The DNA damage was obtained by comet assay. The lower confidence interval of the benchmark dose (BMDL) was employed for exposure limit evaluation. The estimated BMDL of the cell line was extrapolated to human subjects. Based on the Hill model, a BMDL 1.65 µg for chemical mixture has been estimated for the A549 cell line. According to uncertainty factors, permitted daily exposure (PDE) was predicted in humans. However, PDE of 3.9 μg/m was specified as the time-weighted average limit for toxic respirable dust in the casting industry. In this study, OEL for active respirable dust in the casting industry has been proposed. The industry-based standard for active respirable dust has been proposed for better management of co-exposure.
本研究基于铁铸造行业的联合暴露方法提出了职业接触限值(OEL)。采用美国国家职业安全与健康研究所(NIOSH)0600方法在铸铁行业采集可吸入粉尘。通过彗星试验获得DNA损伤情况。采用基准剂量(BMDL)的下限置信区间进行暴露限值评估。将细胞系的估计BMDL外推至人类受试者。基于希尔模型,已估计出A549细胞系化学混合物的BMDL为1.65μg。根据不确定性因素,预测了人类的每日允许暴露量(PDE)。然而,3.9μg/m³的PDE被指定为铸造行业有毒可吸入粉尘的时间加权平均限值。在本研究中,提出了铸造行业活性可吸入粉尘的OEL。为更好地管理联合暴露,已提出基于行业的活性可吸入粉尘标准。
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