1. Estimating Water Supply Arsenic Levels in the New England Bladder Cancer Study
- Author
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Dalsu Baris, Laura E. Beane Freeman, Margaret R. Karagas, Joseph D. Ayotte, Mary H. Ward, Jay H. Lubin, Anne Taylor, Sai Cherala, John R. Nuckols, Matthew Airola, Joanne S. Colt, Debra T. Silverman, Chris Paulu, William Bress, An Tsun Huang, and Kenneth P. Cantor
- Subjects
Male ,exposure assessment ,Health, Toxicology and Mutagenesis ,Water supply ,010501 environmental sciences ,01 natural sciences ,0302 clinical medicine ,New Hampshire ,Ingestion ,Child ,geographic information systems ,education.field_of_study ,Environmental exposure ,Middle Aged ,6. Clean water ,3. Good health ,030220 oncology & carcinogenesis ,Environmental chemistry ,Epidemiological Monitoring ,Regression Analysis ,Female ,Risk assessment ,Environmental Monitoring ,Adult ,Adolescent ,Population ,water quality modeling ,chemistry.chemical_element ,Risk Assessment ,Arsenic ,Young Adult ,03 medical and health sciences ,Environmental health ,Humans ,Maine ,education ,Aged ,Retrospective Studies ,0105 earth and related environmental sciences ,Exposure assessment ,water supply ,business.industry ,Drinking Water ,Research ,Infant, Newborn ,Public Health, Environmental and Occupational Health ,Infant ,Environmental Exposure ,environmental epidemiology ,Urinary Bladder Neoplasms ,chemistry ,13. Climate action ,Case-Control Studies ,Environmental science ,business ,Water Pollutants, Chemical ,Vermont ,Environmental epidemiology - Abstract
Background: Ingestion of inorganic arsenic in drinking water is recognized as a cause of bladder cancer when levels are relatively high (≥ 150 µg/L). The epidemiologic evidence is less clear at the low-to-moderate concentrations typically observed in the United States. Accurate retrospective exposure assessment over a long time period is a major challenge in conducting epidemiologic studies of environmental factors and diseases with long latency, such as cancer. Objective: We estimated arsenic concentrations in the water supplies of 2,611 participants in a population-based case–control study in northern New England. Methods: Estimates covered the lifetimes of most study participants and were based on a combination of arsenic measurements at the homes of the participants and statistical modeling of arsenic concentrations in the water supply of both past and current homes. We assigned a residential water supply arsenic concentration for 165,138 (95%) of the total 173,361 lifetime exposure years (EYs) and a workplace water supply arsenic level for 85,195 EYs (86% of reported occupational years). Results: Three methods accounted for 93% of the residential estimates of arsenic concentration: direct measurement of water samples (27%; median, 0.3 µg/L; range, 0.1–11.5), statistical models of water utility measurement data (49%; median, 0.4 µg/L; range, 0.3–3.3), and statistical models of arsenic concentrations in wells using aquifers in New England (17%; median, 1.6 µg/L; range, 0.6–22.4). Conclusions: We used a different validation procedure for each of the three methods, and found our estimated levels to be comparable with available measured concentrations. This methodology allowed us to calculate potential drinking water exposure over long periods.
- Published
- 2011
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