饮用水和燃煤砷暴露对健康影响的调查：砷暴露与代谢。

An investigation of the health effects caused by exposure to arsenic from drinking water and coal combustion: arsenic exposure and metabolism.

机构信息

Key Laboratory of Land Surface Pattern and Simulation, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 11 A Datun Road, 100101, Beijing, People's Republic of China.

College of Resources and Environment, University of Chinese Academy of Sciences, Beijing, China.

出版信息

Environ Sci Pollut Res Int. 2017 Nov;24(33):25947-25954. doi: 10.1007/s11356-017-0203-z. Epub 2017 Sep 23.

DOI:10.1007/s11356-017-0203-z

PMID:28940151

Abstract

Few studies have been conducted to compare arsenic exposure, metabolism, and methylation in populations exposed to arsenic in drinking water and from coal combustion. Therefore, arsenic concentrations in the environment and arsenic speciation in the urine of subjects exposed to arsenic as a consequence of coal combustion in a rural area in Shaanxi province (CCA) and in drinking water in a rural area in Inner Mongolia (DWA) were investigated. The mean arsenic concentrations in drinking water, indoor air, and soil in CCA were 4.52 μg/L, 0.03 mg/m, and 14.93 mg/kg, respectively. The mean arsenic concentrations in drinking water and soil in DWA were 144.71 μg/L and 10.19 mg/kg, respectively, while the level in indoor air was lower than the limit of detection. The total daily intakes of arsenic in DWA and CCA were 4.47 and 3.13 μg/day·kg, respectively. The mean urinary concentrations of inorganic arsenic (iAs), monomethylarsonic acid (MMA), dimethylarsenic acid (DMA), and total arsenic (TAs) for subjects with skin lesions in DWA were 50.41, 47.01, 202.66, and 300.08 μg/L. The concentrations for subjects without skin lesions were 49.76, 44.20, 195.60, and 289.56 μg/L, respectively. The %iAs, %MMA, and %DMA in the TAs in the urine of subjects from CCA were 12.24, 14.73, and 73.03%, while the corresponding values from DWA were 17.54, 15.57, and 66.89%, respectively. The subjects in DWA typically had a higher %iAs and %MMA, and a lower %DMA, and primary and secondary methylation index (PMI and SMI) than the subjects in CCA. It was concluded that the arsenic methylation efficiency of subjects in DWA and CCA was significantly influenced by chronic exposure to high levels of arsenic in the environment. The lower PMI and SMI values in DWA revealed lower arsenic methylation capacity due to ingestion of arsenic in drinking water. However, it remained unclear if the differences in arsenic metabolism between the two groups were due to differences in exposure levels or in exposure route.

摘要

鲜有研究比较过饮水中砷暴露、代谢和甲基化以及燃煤所致砷暴露人群的砷暴露、代谢和甲基化情况。因此，本研究调查了陕西省某农村燃煤地区（CCA）人群和内蒙古某农村饮水地区（DWA）人群环境中砷浓度及尿液中砷形态。CCA 人群饮水中、室内空气中和土壤中砷的平均浓度分别为 4.52μg/L、0.03mg/m3和 14.93mg/kg。DWA 人群饮水中和土壤中砷的平均浓度分别为 144.71μg/L和 10.19mg/kg，而室内空气中的砷浓度低于检测限。DWA 和 CCA 人群的总砷日摄入量分别为 4.47μg/day·kg 和 3.13μg/day·kg。DWA 中有皮肤损伤的人群尿液中无机砷（iAs）、一甲基砷酸（MMA）、二甲基砷酸（DMA）和总砷（TAs）的平均浓度分别为 50.41μg/L、47.01μg/L、202.66μg/L和 300.08μg/L。无皮肤损伤的人群尿液中 iAs、MMA、DMA 和 TAs 的浓度分别为 49.76μg/L、44.20μg/L、195.60μg/L和 289.56μg/L。CCA 人群尿液中 TAs 的 %iAs、%MMA 和 %DMA 分别为 12.24%、14.73%和 73.03%，而 DWA 人群的相应值分别为 17.54%、15.57%和 66.89%。DWA 人群的 %iAs 和 %MMA 通常较高，而 %DMA 及初级和次级甲基化指数（PMI 和 SMI）较低，表明 DWA 人群的砷甲基化效率受到环境中高浓度砷慢性暴露的显著影响。DWA 人群较低的 PMI 和 SMI 值表明，由于饮用水中砷的摄入，其砷甲基化能力较低。然而，两组人群砷代谢的差异是由于暴露水平还是暴露途径的不同仍不清楚。

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饮用水和燃煤砷暴露对健康影响的调查：砷暴露与代谢。

An investigation of the health effects caused by exposure to arsenic from drinking water and coal combustion: arsenic exposure and metabolism.

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