Mercury Toxicity and the Mitigating Role of Selenium

Mercury is a well-known environmental toxicant, particularly in its most common organic form, methylmercury. Consumption of fish and shellfish that contain methylmercury is a dominant source of mercury exposure in humans and piscivorous wildlife. Considerable efforts have focused on assessment of me...

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Veröffentlicht in:	EcoHealth 2008-12, Vol.5 (4), p.456-459
Hauptverfasser:	Berry, Marla J., Ralston, Nicholas V. C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal Ecology Animals Bioaccumulation Ecosystems Environmental Health Environmental Pollutants Enzymatic activity Forum Humans Medicine Medicine & Public Health Mercury Mercury Poisoning - diet therapy Mercury Poisoning - metabolism Mercury Poisoning - prevention & control Methylmercury Methylmercury Compounds - adverse effects Methylmercury Compounds - pharmacology Methylmercury Compounds - poisoning Microbiology Public Health Seafood Selenium Selenium - administration & dosage Selenium - metabolism Selenium - pharmacology Shellfish Toxicants Toxicity Trace elements Water and Health Wildlife
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creator	Berry, Marla J. Ralston, Nicholas V. C.
description	Mercury is a well-known environmental toxicant, particularly in its most common organic form, methylmercury. Consumption of fish and shellfish that contain methylmercury is a dominant source of mercury exposure in humans and piscivorous wildlife. Considerable efforts have focused on assessment of mercury and its attendant risks in the environment and food sources, including the studies reported in this issue. However, studies of mercury intoxication have frequently failed to consider the protective effects of the essential trace element, selenium. Mercury binds to selenium with extraordinarily high affinity, and high maternal exposures inhibit selenium-dependent enzyme activities in fetal brains. However, increased maternal dietary selenium intakes preserve these enzyme activities, thereby preventing the pathological effects that would otherwise arise in their absence. Recent evidence indicates that assessments of mercury exposure and tissue levels need to consider selenium intakes and tissue distributions in order to provide meaningful risk evaluations.
doi_str_mv	10.1007/s10393-008-0204-y
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subjects	Animal Ecology Animals Bioaccumulation Ecosystems Environmental Health Environmental Pollutants Enzymatic activity Forum Humans Medicine Medicine & Public Health Mercury Mercury Poisoning - diet therapy Mercury Poisoning - metabolism Mercury Poisoning - prevention & control Methylmercury Methylmercury Compounds - adverse effects Methylmercury Compounds - pharmacology Methylmercury Compounds - poisoning Microbiology Public Health Seafood Selenium Selenium - administration & dosage Selenium - metabolism Selenium - pharmacology Shellfish Toxicants Toxicity Trace elements Water and Health Wildlife
title	Mercury Toxicity and the Mitigating Role of Selenium
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