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Essential concepts for interpreting the dose-response of low-level arsenic exposure in epidemiological studies

Joyce S. Tsuji, Kristin P. Lennox, Heather Watson, Ellen T. Chang

2021Toxicology18 citationsDOIOpen Access PDF

Abstract

Scientifically robust selections of epidemiological studies and assessments of the dose-response of inorganic arsenic in the low-dose range must consider key issues specific to arsenic in order to reduce risk of bias. The abundance of toxicological, mechanistic, and epidemiological evidence on arsenic enables a nuanced assessment of risk of bias in epidemiological studies of low-level arsenic, as opposed to a generic evaluation based only on standard principles. Important concepts in this context include 1) arsenic metabolism and mode of action for toxicity and carcinogenicity; 2) effects of confounding factors such as diet, health status including nutritional deficiencies, use of tobacco and other substances, and body composition; 3) strengths and limitations of various metrics for assessing relevant exposures consistent with the mode of action; and 4) the potential for bias in the positive direction for the observed dose-response relationship as exposure increases in the low-dose range. As an example, evaluation of a recent dose-response modeling using eight epidemiological studies of inorganic arsenic and bladder cancer demonstrated that the pooled risk estimate was markedly affected by the single study that was ranked as having a high risk of bias, based on the above factors. The other seven studies were also affected by these factors to varying, albeit lesser, degrees that can influence the apparent dose-response in the low-dose range (i.e., drinking water concentration of 65 µg/L or dose of approximately ≤1 µg/kg-day). These issues are relevant considerations for assessing health risks of oral exposures to inorganic arsenic in the U.S. population, and setting evidence-based regulatory limits to protect human health.

Topics & Concepts

ArsenicConfoundingEpidemiologyContext (archaeology)Environmental healthHealth effectExposure assessmentRisk assessmentArsenic toxicityMedicineArsenic contamination of groundwaterToxicologyBiologyChemistryPathologyComputer scienceOrganic chemistryComputer securityPaleontologyArsenic contamination and mitigationHeavy Metal Exposure and ToxicityEnvironmental Justice and Health Disparities
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