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1 "Nam-Soo Kim"
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Research Article
Urinary arsenic species concentration in residents living near abandoned metal mines in South Korea
Jin-Yong Chung, Byoung-Gwon Kim, Byung-Kook Lee, Jai-Dong Moon, Joon Sakong, Man Joong Jeon, Jung-Duck Park, Byung-Sun Choi, Nam-Soo Kim, Seung-Do Yu, Jung-Wook Seo, Byeong-Jin Ye, Hyoun-Ju Lim, Young-Seoub Hong
Ann Occup Environ Med 2016;28:67.   Published online November 22, 2016
DOI: https://doi.org/10.1186/s40557-016-0150-z
AbstractAbstract PDFPubReaderePub
Background

Arsenic is a carcinogenic heavy metal that has a species-dependent health effects and abandoned metal mines are a source of significant arsenic exposure. Therefore, the aims of this study were to analyze urinary arsenic species and their concentration in residents living near abandoned metal mines and to monitor the environmental health effects of abandoned metal mines in Korea.

Methods

This study was performed in 2014 to assess urinary arsenic excretion patterns of residents living near abandoned metal mines in South Korea. Demographic data such as gender, age, mine working history, period of residency, dietary patterns, smoking and alcohol use, and type of potable water consumed were obtaining using a questionnaire. Informed consent was also obtained from all study subjects (n = 119). Urinary arsenic species were quantified using high performance liquid chromatography (HPLC) and inductively coupled plasma mass spectrometry (ICP/MS).

Results

The geometric mean of urinary arsenic (sum of dimethylarsinic acid, monomethylarsonic acid, As3+, and As5+) concentration was determined to be 131.98 μg/L (geometric mean; 95% CI, 116.72–149.23) while urinary inorganic arsenic (As3+ and As5+) concentration was 0.81 μg/L (95% CI, 0.53–1.23). 66.3% (n = 79) and 21.8% (n = 26) of these samples exceeded ATSDR reference values for urinary arsenic (>100 μg/L) and inorganic arsenic (>10 μg/L), respectively. Mean urinary arsenic concentrations (geometric mean, GM) were higher in women then in men, and increased with age. Of the five regions evaluated, while four regions had inorganic arsenic concentrations less than 0.40 μg/L, one region showed a significantly higher concentration (GM 15.48 μg/L; 95% CI, 7.51–31.91) which investigates further studies to identify etiological factors.

Conclusion

We propose that the observed elevation in urinary arsenic concentration in residents living near abandoned metal mines may be due to environmental contamination from the abandoned metal mine.

Trial registration

Not Applicable (We do not have health care intervention on human participants).


Citations

Citations to this article as recorded by  
  • Assessing Acute and Chronic Risks of Human Exposure to Arsenic: A Cross-Sectional Study in Ethiopia Employing Body Biomarkers
    Solomon Demissie, Seblework Mekonen, Tadesse Awoke, Bezatu Mengistie
    Environmental Health Insights.2024;[Epub]     CrossRef
  • Changes in arsenic accumulation and metabolic capacity after environmental management measures in mining area
    Chen Zhao, Meng Du, Jun Yang, Guanghui Guo, Lingqing Wang, Yunxian Yan, Xuewen Li, Mei Lei, Tongbin Chen
    Science of The Total Environment.2023; 855: 158652.     CrossRef
  • Concentrations of blood and urinary arsenic species and their characteristics in general Korean population
    Jeong Weon Choi, Yoon Chae Song, Nam-Yong Cheong, Kiyoung Lee, Sunmi Kim, Kyoung-Mu Lee, Kyunghee Ji, Mi-Yeon Shin, Sungkyoon Kim
    Environmental Research.2022; 214: 113846.     CrossRef
  • MTHFR, As3MT and GSTO1 Polymorphisms Influencing Arsenic Metabolism in Residents Near Abandoned Metal Mines in South Korea
    Ulziikhishig Surenbaatar, Byoung-Gwon Kim, Hyun-Jin Son, Seong-Sik Cho, Gwon-Min Kim, Hyoun-Ju Lim, Jung-Yeon Kwon, Ki-Hwan Kim, Young-Seoub Hong
    Journal of Environmental Health Sciences.2021; 47(6): 530.     CrossRef
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