评估指甲油中有机磷酯的风险:室内排放、命运模型和健康风险评估

Tianqi Jia, Arturo A. Keller, Lirong Gao, Wenbin Liu*, Sasha Liu, Xiaotian Xu, Fei Yin, Yunchen He, Tianao Mao, Jinglin Deng, Javid Hussain and Chunci Chen, 
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引用次数: 0

摘要

有机磷酸酯(OPE)通常用作指甲油的增塑剂。有关指甲油中的 OPE 释放到环境中以及相关健康风险的研究十分有限。本研究采用挥发模拟器和室内逸散度模型(ICECRM)来预测指甲油中的 OPEs 排放量和室内浓度。指甲油中 11 种 OPE 的浓度介于 0.38 至 1254 微克/克之间,其中 TPHP 占总浓度的 87%。涂抹指甲油后,OPEs 的排放率在 2 分钟后达到峰值,为 1320 纳克/小时,30 分钟后下降约 62%,1 小时后下降约 77%。与其他室内物品的排放率相比,指甲油的排放率明显较高,对日常使用的室内环境造成了显著影响。根据 ICECRM 模型的结果预测,空气中的 OPE 总浓度将达到 582 纳克/立方米,颗粒物浓度为 148 微克/克,灰尘浓度为 63.2 微克/克。健康风险评估表明,美甲店员工在涂指甲油的第一个小时内,患癌症的风险可能会增加(10-5)。因此,这项研究强烈建议适当通风,并及时清理涂指甲油时产生的粉尘。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessing the Risk of Organophosphate Esters from Nail Polish: Indoor Emissions, Fate Modeling, and Health Risk Assessment

Assessing the Risk of Organophosphate Esters from Nail Polish: Indoor Emissions, Fate Modeling, and Health Risk Assessment

Organophosphate esters (OPEs) are commonly used as plasticizers in nail polish. There is limited research on OPEs release from nail polish into the environment and the associated health risks. This study employed a volatilization simulator, and indoor fugacity modeling (ICECRM) was used to predict OPEs emissions and indoor concentrations from nail polish. The concentrations of 11 OPEs in nail polish ranged from 0.38 to 1254 μg/g, with TPHP accounting for 87% of the total concentration. Following the application of nail polish, the OPEs emission rate was observed to peak at 1320 ng/h after 2 min, decreasing by approximately 62% after 30 min, and by around 77% after 1 h. In comparison to emission rates from other indoor items, nail polish exhibited notably higher emission rates, significantly impacting the indoor environment during daily usage. The ICECRM model outcomes predicted that the total OPE concentration in the air would reach 582 ng/m3, while the concentration would be 148 μg/g in particulate matter and 63.2 μg/g in dust. The health risk assessment suggests a potential increased risk of cancer (10–5) within the first hour of applying nail polish for nail salon workers. Therefore, this study strongly recommends proper ventilation and prompt cleaning of dust generated during nail polish application.

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