Cadmium accelerates bone loss in ovariectomized mice and fetal rat limb bones in culture.

Bhattacharyya, Maryka H.; Whelton, Bartlett D.; Stern, P.; Peterson, D.P.

doi:10.1073/pnas.85.22.8761

Cited by 95 publications

(38 citation statements)

References 38 publications

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“…There is evidence that low-leve1 exposure to Cd, derived from the diet, is associated with renal dysfunction (Buchet et al, 1990). Cd exposure has also been linked with pulmonary emphysema (Ryan et al, 1982) and possibly bone demineralization (Bhattacharyya et al, 1988). Pollution of the biosphere with this toxic metal has accelerated dramatically since the beginning of the industrial revolution (Nriago, 19791, and Cd accumulation in soil and water now poses a major environmental and human health problem, which is in need of an effective and affordable solution.…”

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confidence: 99%

Mechanisms of Cadmium Mobility and Accumulation in Indian Mustard

et al. 1995

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Cd is a potentially toxic metal that can accumulate in the human body with a half-life exceeding 10 years. There is evidence that low-leve1 exposure to Cd, derived from the diet, is associated with renal dysfunction (Buchet et al., 1990). Cd exposure has also been linked with pulmonary emphysema (Ryan et al., 1982) and possibly bone demineralization (Bhattacharyya et al., 1988). Pollution of the biosphere with this toxic metal has accelerated dramatically since the beginning of the industrial revolution (Nriago, 19791, and Cd accumulation in soil and water now poses a major environmental and human health problem, which is in need of an effective and affordable solution. The use of metal-accumulating plants to remove toxic metals, including Cd, from soil and aqueous streams has been proposed as a possible solution to this problem (reviewed by . This process of using plants for environmental restoration is termed "phytoremediation." Cd is a particularly favorable target metal for this new technology because it is readily transported and accumulated in the shoots of severa1 plant species (Wagner, 1994 The primary point of entry for Cd into plants is through the roots; however, for its efficient remova1 from the soil it must first be translocated to the harvestable parts of the shoot. To understand this translocation process, we undertook a study of Cd transport and accumulation in E. juncea, a high biomass crop plant within the Brassicaceae family, which has been identified as a potentially useful plant for phytoremediation (Banuelos and Meek, 1990). For comparison we have investigated a low biomass wild species within the same family, Thlaspi caerulescens, known to accumulate high levels of Cd in its shoots under certain conditions (Baker et al., 1994; Brown et al., 1994Brown et al., , 1995. MATERIALS AND METHODS Plant MaterialSeeds of Indian mustard (Brassica juncea L., cv 4263081, identified as a metal accumulator , and 24-28°C). The solutions were continuously aerated with an aquarium air pump and changed every 3 d. On the day of treatment, Cd was added to the hydroponic medium as CdSO, and the solutions were changed daily thereafter. Cd Accumulation in PlantsTotal shoot and root accumulation of Cd, Mn, and Cu in B. juncea and T. caerulescens were determined after 7 d of exposure to Cd, using a direct current plasma spectrometer (model SS-7, Fisons, Beverly, MA). Roots and shoots were harvested, washed in deionized water for 2 min, air dried at 60°C for 2 d, and then ground into a fine powder using a pestle and mortar.

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Mechanisms of Cadmium Mobility and Accumulation in Indian Mustard

et al. 1995

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“…In other words, osteomalacia is caused by the urinary leak of essential metabolites like phosphate and calcium, which is related to tubulopathy that causes defects in renal tubular reabsorption. On the other hand, the direct pathway supposes that Cd directly impairs bone metabolism and osteocytes and alters osteoblast gene expression (Bhattacharyya et al, 1988;Brama et al, 2012;Arbon et al, 2012). Although our results do not rule out the direct pathway, it is believed to be evidence supporting and reconfirming the theory that renal osteomalacia occurs in IID patients.…”

Section: Discussionmentioning

confidence: 34%

Histopathological analysis for osteomalacia and tubulopathy in itai-itai disease

et al. 2014

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-Background & Aims Cadmium (Cd) is a widespread environmental contaminant that causes both renal tubulopathy and osteomalacia. Osteomalacia is thought to be a result of renal tubulopathy, but there are few studies about the histopathological relationship between the two pathoses. Therefore, in the present study, we examined specimens from cases of itai-itai disease (IID), the most severe form of chronic cadmium poisoning, to evaluate the relationship between them. Methods We analyzed kidney and bone specimens of 61 IID cases and the data regarding Cd concentration in kidney and bone. Tubulopathy was graded on the basis of a three-step scale (mild, moderate, and severe) using the following three items: the degree of proximal tubular defluxion, thickness of renal cortex, and weight of the kidney. Osteomalacia was evaluated using the relative osteoid volume (ROV). Results There were 15 cases of mild, 19 cases of moderate, and 27 cases of severe tubulopathy. The average ROV was 24.9 ± 2.0%. ROV tended to increase as tubulopathy advanced in severity, and ROV was significantly higher in cases with severe tubulopathy than those with mild or moderate tubulopathy. ROV had a negative correlation with Cd concentration in the kidney but no correlation with that in the bone. Conclusions Our results suggest that the development of osteomalacia was related to the development of tubulopathy.

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“…Cd has a very long half-life of 10-30 years and hence is accumulated in the body, damages renal tubes [10,31], obstructs calcium absorption in the digestive tract [32] and negatively affects the metabolism of bones [33][34][35]. UCd or BCd are indices of accumulation of cadmium in the renal tubes [36], and BCd correlated closely with UCd [24,37].…”

Section: Discussionmentioning

confidence: 99%