Abstract
To measure current Hg, Cd, and Pb exposure in Japanese children, and to estimate dietary intakes of foods responsible for high body burden. Blood, hair, and urine samples were collected from 9 to 10-year-old 229 children in Asahikawa and measured for Hg, Cd, and Pb in these matrices. Diet history questionnaire was used to estimate intake of marine foods and other food items. Hg level was measured by cold vapor atomic absorption spectrometry. Cd and Pb levels were determined with inductively coupled plasma mass spectrometry. Geometric mean (GM) of blood Hg, Cd, and Pb was 4.55 μg/L, 0.34 μg/L, and 0.96 μg/dL, respectively. Urinary Cd level was 0.34 μg/g creatinine (GM) and hair Hg was 1.31 μg/g (GM). Approximately one-third (35%) of blood samples had Hg level above the U.S. EPA reference dose (RfD; 5.8 μg/L). Hair Hg level exceeded U.S. EPA RfD (1.2 μg/g) in 59 % samples. Children in the upper quartile of blood Hg level had significantly higher intake of large predatory fish species compared to those in the lower quartile of blood Hg. Those with high blood Hg level may be explained by more frequent intake of big predatory fish. Cd and Pb exposure is generally low among Japanese children. As no safety margin exists for Pb exposure and high exposure to MeHg is noted in Japanese population; periodic biomonitoring and potential health risk assessment should continue in high-risk populations, notably among children.
Highlights
Health implications of low-level chronic exposure to toxic metals such as mercury (Hg), cadmium (Cd), and lead (Pb) are contemporary issues in environmental health
Sakamoto Department of Epidemiology, National Institute for Minamata Disease, Minamata, Kumamoto, Japan upper quartile of blood Hg level had significantly higher intake of large predatory fish species compared to those in the lower quartile of blood Hg. Those with high blood Hg level may be explained by more frequent intake of big predatory fish
Cd and Pb exposure is generally low among Japanese children
Summary
Health implications of low-level chronic exposure to toxic metals such as mercury (Hg), cadmium (Cd), and lead (Pb) are contemporary issues in environmental health. In the form of methylmercury (MeHg), and Pb are wellknown neurodevelopmental toxicants, while Cd is a toxic metal with the main adverse effect in kidney and bone metabolism [1]. Environmental exposure to Hg, Cd, and Pb may occur simultaneously from various sources and these pollutants may interact to induce early effects in children, with kidney and central nervous system as the most sensitive target organs [5]. The long biological half-life of these heavy metals leads to accumulation in the body on continuous exposure, which later serves as the source of ‘‘endogenous contamination’’, where stored metals are continually released back into the blood compartment [7]
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