UMLS:C0002871 - FACTA Search

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The toxicity of Cd was examined in rats fed diets containing 30 mg Cd/kg as CdCl2 for 8 wk. The Cd-containing diets were supplemented with various combinations of the minerals Ca, P, Mg, Mn, Cu, Fe, Zn and Se in order to investigate the protective effect of these mineral combinations on Cd accumulation and toxicity. The mineral combinations were chosen such that the effect of the individual components could be analysed. At the end of the 8-wk feeding period, the Cd concentrations in the liver and renal cortex were 13.9 and 19.5 mg/kg body weight, respectively. The feeding of 30 mg Cd/kg diet alone resulted in well known Cd effects, such as growth retardation, slight anaemia, increased plasma transaminase activities and alteration of Fe accumulation. Only supplements that contained extra Fe resulted in a significant protection against Cd accumulation and toxicity. The most pronounced effect was obtained using a supplement of Ca/P, Fe and Zn, which resulted in a 70-80% reduction in Cd accumulation in the liver and kidneys, as well as a reduction in Cd toxicity. The protective effect of the mineral combinations was mainly due to the presence of Fe2+, but in combinations with Ca/P and Zn the effect of Fe was most pronounced. Compared with Fe2+ the protective effect of Fe3+ was significantly lower. Addition of ascorbic acid to Fe in both forms improved the Fe uptake, but consequently did not decrease Cd accumulation. Thus, the mineral status of the diet may have a considerable impact on the accumulation and toxicity of Cd, fed as CdCl2 in laboratory animals. For the risk assessment of Cd intake, special consideration should be given to an adequate intake of Fe.
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PMID:Interaction of dietary Ca, P, Mg, Mn, Cu, Fe, Zn and Se with the accumulation and oral toxicity of cadmium in rats. 204 Apr 87

Long-term biological effects of cadmium-polluted rice and the effect of repeated reproductive cycles on them were examined. Female SLC-B6D2F mice (female C57BL/6, male DBA/2) were fed a rice diet containing 65% unpolished rice for about 2 years from 7 weeks of age. The unpolished rice preparations used were commercially available rice (non-Cd-polluted) and Cd-polluted rice (over 1.0 ppm). Average Cd contents in each diet class were 0.12, 0.48, 1.78, 1.75, and 47.1 ppm (50 ppm Cd as CdCl2 added). Some experimental mice were subjected to repeated reproductive cycles (parity group). Hematological, biochemical, and pathological examinations of urine, blood, and tissues, including Cd measurement, were carried out. Results after statistical analysis indicate Cd toxicities such as anemia and disturbances of Ca metabolism. These Cd effects were found to be enhanced by the reproductive cycles. Soft X-ray radiograms showed osteoporosis in the parity groups, especially in the groups with diets of higher Cd content. However, we could not find any sign of disturbance of renal function under our experimental conditions.
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PMID:An experimental study on the long-term effect of cadmium in mice fed cadmium-polluted rice with special reference to the effect of repeated reproductive cycles. 370 97

Male Wistar rats were injected with CdCl2 subcutaneously to examine in vivo effects of Cd on density and survival of red blood cells. During the 7 days after administration of 1.0 mg Cd/kg, the following sequence of events occurred: (1) a progressive increase in the amount of more dense red blood cells concomitant with a decrease in that of light red blood cells from the first to the third day; (2) an increase in the spleen weight at the third day; (3) a decrease in the hematocrit value and an increase in the amount of light red blood cells at the fifth day; and (4) a recovery of the hematocrit value at the seventh day. Five days after administration, the hematocrit value decreased in a dose-dependent mode and the decrease was significant at the 1% level at 1.0 and 1.5 mg Cd/kg. A highly significant splenomegaly was also observed at 0.5 to 1.5 mg Cd/kg. In order to label red blood cells in vivo, [3H]diisopropylfluorophosphate ([3H]DFP) was injected into rats. At Day 11, Cd at either 0.5 or 1.0 mg/kg was administered to [3H]DFP-prelabeled animals. Cd administration accelerated 3H-labeled red cell clearance from the blood. Six days after Cd administration, the radioactivity of red blood cells was 76 and 68% (P less than 0.05) of the control at 0.5 and 1.0 mg Cd/kg, respectively. In vitro treatment of rat red blood cells with either 0.5 or 1.0 mM CdCl2 also increased red cell density and accelerated in vivo clearance of red blood cells from the recipient circulation. These results show that Cd at low dose can cause anemia by increasing red cell density and by accelerating red cell sequestration, presumably in the spleen.
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PMID:Density increment and decreased survival of rat red blood cells induced by cadmium. 394 13

Weanling Landrace X Yorkshire swine were fed a basal diet or a diet containing 3% clinoptilolite (a natural zeolite) with or without 150 ppm CdCl2 or 3% zeolite NaA (a synthetic zeolite) with or without 150 ppm CdCl2 for 31 days. Hematocrit and hemoglobin were depressed significantly in animals fed Cd in the absence of zeolites, but not in their presence. Liver Cd concentration was increased dramatically by added dietary Cd but was significantly lower in animals fed clinoptilolite with Cd than in those fed Cd alone (11.4 vs 16.5 ppm). Liver Fe and Zn were decreased by dietary Cd; liver Fe was not affected significantly by clinoptilolite or zeolite NaA, but liver Zn was increased by zeolite NaA. Kidney dry matter, Zn, and Cd concentrations were increased by dietary Cd; neither clinoptilolite nor zeolite NaA affected kidney Cd concentration. Zeolite NaA increased kidney dry matter both in the presence and in the absence of dietary Cd. Plasma urea-N, K, Na, and Mg were unaffected by Cd or by either zeolite. The data illustrate the different effects of dietary clinoptilolite compared with zeolite NaA on blood plasma, liver, and kidney concentrations of minerals and provide evidence that both zeolites offer some protection against Cd-induced Fe-deficiency anemia; the magnitude of this protection and the effects of each zeolite on tissue concentrations of Cd and other materials need further quantification.
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PMID:Protection by clinoptilolite or zeolite NaA against cadmium-induced anemia in growing swine. 630 73

Chronic exposure of adult rats to dietary intake of cadmium (15 mg CdCl2/day/kg for 30 days) leads to development of anemia and thrombocytosis. Anemia is characterized by significant reticulocytosis (13.1 +/- 1.0%), anysocytosis, poikilocytosis, iron deficiency and marked alterations of antioxidant and metabolic status of red blood cells. Activities of SOD, catalase, GPx and GR were significantly increased in red blood cells of cadmium-treated rats. In treated animals cadmium induced an increase of red cell reduced and oxidized glutathione with no changes of GSSG/GSH ratio. However, significant reduction of lipid peroxidation was found. Plasma levels of tocopherol and ascorbate, as well as activity of glutathione-S-transferase, were all significantly increased in cadmium-treated rats. The energy metabolism of red blood cells was deeply altered in cadmium-treated rats. The levels of ATP, ADP, AMP and TAN were significantly increased while ATP/ADP ratio and adenylate energy charge (AEC) were significantly reduced. The level of 2,3-BPG was somewhat lower, but 2,3-BPG/Hb ratio was considerably higher, in red blood cells of cadmium-treated rats.
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PMID:Cadmium-induced changes of antioxidant and metabolic status in red blood cells of rats: in vivo effects. 837 Apr 23

To check the hypothesis that adequate dietary iron supplementation reduces cadmium retention and cadmium-induced anaemia during fast growth, three different dietary iron concentrations (6 mg/kg = iron-deficient; 55 mg/kg = marginal iron supply; 180 mg/kg = luxurious iron supply) were offered to growing rats. Four groups of rats at different age (44 days approximately = 150 +/- 6 g, 49 days approximately = 180 +/- 3 g, 57 days approximately = 220 +/- 4 g, and 84 days approximately = 295 9 g) received a diet with 55 mg Fe/kg which is a marginal iron-supply during growth. Six animals in each age group were exposed to 10 mg Cd/l as CdCl2 in the drinking water for 1 week; six animals in each age group received no cadmium. In the youngest and oldest groups additional 6 animals were exposed to the same cadmium dose but received an iron-deficient (6 mg Fe/kg) and an iron-adequate diet (180 mg Fe/kg) together with corresponding controls. The state of iron repletion was monitored by the tissue iron content in liver, kidney, and duodenum as well as by the concentrations of haemoglobin, plasma iron and plasma transferrin. The youngest animals showed the highest percent weight increases. Cadmium administration influenced neither growth rates nor food and water intake. At a dietary iron content of 55 mg/kg, iron repletion was negatively correlated to growth while the cadmium content in liver and kidney showed a positive correlation. At fast growth, a dietary iron content of 6 mg/kg lead to iron-deficiency anaemia and high cadmium retention. At all dietary iron concentrations, cadmium retention as well as the cadmium-related reduction in haemoglobin concentration was significantly higher at fast growth. Adequate dietary iron supplementation reduced cadmium retention and cadmium-induced anaemia significantly. Thus, the delicate balance between iron supply and the increased iron demand during growth can be disturbed within one week by a daily cadmium intake as low as 0.7-1.3 mg Cd/kg body weight.
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PMID:State of iron repletion and cadmium tissue accumulation as a function of growth in young rats after oral cadmium exposure. 908 97

Splenomegaly was observed both in male and female Sprague-Dawley rats after 1 week of exposure to CdCl2 (0.6 mg Cd/kg/day). Spleen weight reached about double that in controls by 8 weeks of Cd exposure. Histopathological examination of the enlarged spleen revealed that iron- and lipid-laden histiocytes were clustered in the periarterial lymphatic sheath, and the red pulp appeared to be expanded. It is noteworthy that electron microscopy revealed marked poikilocytosis and Heinz body formation in red blood cells (RBCs) in both the sinus and cord. Histiocytes were swollen by a granular substance in the cytoplasm and also many secondary lysosomes. These morphological findings indicate that degradation of damaged RBCs induced by exposure to Cd might be promoted in the spleen and possibly cause splenomegaly. This RBC damage-hemolysis-splenomegaly sequence is also considered to be associated with the etiology of Cd-induced anemia. In addition to the abnormal RBC degradation, nuclei of lymphocytes in the Cd-exposed spleen exhibited high electron density, consistent with a preapoptotic state suggesting the immunosuppressive effect of Cd.
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PMID:Pathological study of splenomegaly associated with cadmium-induced anemia in rats. 955 25

We wished to clarify the relationship between the sensitivity to induce hepato-renal toxicity and the level of cadmium (Cd) in the organs of rats exposed to minimum to large amounts of cadmium chloride (CdCl2). For this purpose, groups of female Sprague-Dawley (SD) rats, each consisting of 24 animals, were fed diet containing CdCl2 at concentrations of 0, 8, 40, 200, and 600 ppm for 2, 4, and 8 months from 5 weeks of age. All surviving rats given 600 ppm Cd were killed at 4 months because of deterioration of their general condition. Animals of this group showed anemia and decreased hematopoiesis in the bone marrow, in addition to reduction of cancellous bone in their femurs. Hepatotoxicity was observed after 2 months in the groups treated with > or = 200 ppm. By 4 months, the rats in the 600 ppm group had developed periportal liver cell necrosis. Renal toxicity characterized by degeneration of proximal tubular epithelia was apparent in the groups treated with > or = 200 ppm from 2 months, becoming more prominent in the high-dose rats at 4 months. Hepatic accumulation of Cd increased linearly with the duration of treatment. In contrast, the concentration of Cd in the renal cortex of rats treated with 600 ppm reached a plateau level of approximately 250 microg/g within the first 2 months. The renal concentration of Cd in the 200 ppm group when renal toxic lesions were first detected at 2 months ranged from 104 to 244 microg/g. No renal lesions were observed in the 40 ppm group after 8 months, despite the presence of 91-183 microg/g of Cd in the kidneys. The results thus suggest that renal toxicity would not be induced by treatment with minimum amounts of CdCl2 for periods longer than 8 months, although accumulation of Cd might gradually progress. A further 2-year feeding study of CdCl2 and Cd-polluted rice is now in progress.
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PMID:Relationship between the development of hepato-renal toxicity and cadmium accumulation in rats given minimum to large amounts of cadmium chloride in the long-term: preliminary study. 980 25

Cadmium (Cd) is an environmental pollutant. Chronic exposure of humans to Cd results in various maladies, including anemia and altered immune function. Metallothionein (MT) has been proposed to play an important role in Cd detoxication. Thus, we hypothesized that intracellular MT protects against Cd-induced hematotoxicity and immunotoxicity. Control and MT-I/II knock-out (MT-null) mice were given s.c. injections of CdCl2 over a wide range of doses, 6 times/week for up to 10 weeks. Cd-induced anemia was evident after 5 weeks of exposure and progressed with time. MT-null mice were about 10 times more susceptible to Cd-induced anemia, as evidenced by decreased erythrocytes (25%), hemoglobin concentration (30%), and hematocrit (35%) after 10 weeks of Cd injections. Cd produced dose- and time-dependent increases in neutrophils (7x), along with a marked elevation of serum IL-1 beta (6x) and TNF-alpha (20x) levels. MT-null mice were more susceptible than controls to Cd-induced alterations in peripheral leukocytes and cytokine levels. Chronic exposure to Cd also produced dose- and time-dependent splenomegaly (5x), with loss of lymphoid structure, inflammation, hyperplasia, appearance of giant cells, and fibrosis. Thymus weights were decreased by Cd in a dose-dependent manner (60%). MT-null mice were also approximately 10 times more susceptible than controls to these lesions. In conclusion, the present study demonstrates that repeated injections of Cd produces hematotoxic and immunotoxic effects, and intracellular MT protects against these chronic Cd-induced effects.
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PMID:Metallothionein-null mice are highly susceptible to the hematotoxic and immunotoxic effects of chronic CdCl2 exposure. 1049 73

The intestinal absorption of cadmium (Cd) increases when the body iron (Fe) stores are depleted. The depletion of Fe upregulates the expression of divalent metal transporter 1 (DMT1), which is located at the apical membrane of enterocytes lining the small intestine. DMT1 has been shown to transport Fe and other divalent metal ions in vitro. However, it is not known whether DMT1 mediates the intestinal absorption of Cd. To investigate DMT1 involvement in Cd absorption, rats were fed a diet for 4 weeks either deficient in Fe (FeD diet, 2-6 mg Fe/kg) or supplemented with Fe (FeS diet, 120 mg Fe/kg), followed by a single oral administration of 109 CdCl2. Body Fe status, hemoglobin, and tissue Cd concentration were determined at 48 h after Cd administration. Also, DMT1 mRNA levels were quantified in duodenum, kidney, and liver by the branched DNA signal amplification method. Animals fed the FeD diet exhibited a reduced body weight gain, depletion of body Fe, and Fe deficiency anemia. Tissue Cd concentration was significantly higher in FeD than in FeS diet-fed rats, especially in the duodenum. The amount of Cd retained in the body was 10-fold higher in rats fed the FeD diet than in those fed the FeS diet. DMT1 mRNA was highly expressed in duodenum and was 15-fold higher in the FeD diet group. The levels of DMT1 mRNA were significantly lower in kidney and liver than in duodenum, but were 30 and 40% higher, respectively, in rats fed the FeD diet than in rats fed the FeS diet. These findings suggest that functional DMT1 protein is likely upregulated in the small intestine at the mRNA level by body iron depletion and increases Cd uptake from the gastrointestinal tract with subsequent transfer of Cd to the circulation and body tissues. Furthermore, the data from this study may indicate that DMT1 is a nonspecific metal transporter, which can transport not only Fe, but probably the toxic metal as well.
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PMID:Intestinal absorption of cadmium is associated with divalent metal transporter 1 in rats. 1215 24

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