J. P. Buchet scite author profile

This paper presents the main findings of a study on health effects of environmental cadmium pollution in China, performed in 1998, i.e. approximately 25 years after the first warnings of such effects were published in Ambio. Forearm bone mineral density (BMD) and renal dysfunction were assessed in population groups exposed to cadmium via rice. Decreased BMD was found in postmenopausal women with elevated urinary cadmium (CdU) or cadmium in blood (CdB) and among men with elevated CdB. Also, clear and statistically significant dose-effect and dose-response relationships were found between CdB or CdU and renal dysfunction (increased excretion of retinol-binding protein). This is the first report of bone effects among Cd-exposed population groups in Asia outside Japan. The report is also of interest since it demonstrates that bone effects, a comparatively severe adverse health effect of Cd, in combination with renal dysfunction, still occurs in environmentally exposed population groups in Asia. Recent reports on bone effects in Cd-exposed population groups in Europe are discussed.

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Low Bone Density and Renal Dysfunction Following Environmental Cadmium Exposure in China

Nordberg¹,

Jin²,

Bernard³

et al. 2002

Ambio

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Biological monitoring of occupational exposure to inorganic arsenic.

et al. 1999

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Objectives-This study was undertaken to assess reliable biological indicators for monitoring the occupational exposure to inorganic arsenic (iAs), taking into account the possible confounding role of arsenicals present in food and of the element present in drinking water. Methods-51 Glass workers exposed to As trioxide were monitored by measuring dust in the breathing zone, with personal air samplers. Urine samples at the end of work shift were analysed for biological monitoring. A control group of 39 subjects not exposed to As, and eight volunteers who drank water containing about 45 µg/l iAs for a week were also considered. Plasma mass spectrometry (ICP-MS) was used for the analysis of total As in air and urine samples, whereas the urinary As species (trivalent, As Conclusions-To avoid the eVect of As from sources other than occupation on urinary species of the element, in particular on DMA, it is proposed that urinary As 3 +As 5 may an indicator for monitoring the exposure to iAs. For concentrations of 10 µg/m 3 the current environmental limit for iAs, the limit for urinary As 3 +As 5 was calculated to be around 5 µg/l, even if the wide variation of values needs critical evaluation and application of data. The choice of this indicator might be relevant also from a toxicological point of view. Trivalent arsenic is in fact the most active species and its measure in urine could be the best indicator of some critical eVects of the element, such as cancer. (Occup Environ Med 1999;56:825-832)

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Study of factors influencing the in vivo methylation of inorganic arsenic in rats

Buchet¹

1987

Toxicology and Applied Pharmacology

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Impact of cadmium exposure on male sex hormones: a population-based study in China

Zeng

Jin

Buchet

et al. 2004

Environmental Research

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J. P. Buchet

Low Bone Density and Renal Dysfunction Following Environmental Cadmium Exposure in China

Low Bone Density and Renal Dysfunction Following Environmental Cadmium Exposure in China

Biological monitoring of occupational exposure to inorganic arsenic.

Study of factors influencing the in vivo methylation of inorganic arsenic in rats

Impact of cadmium exposure on male sex hormones: a population-based study in China

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