Dietary chromium effects on tissue chromium concentrations and chromium absorption in rats

Anderson, Richard A.; Bryden, Noella A.; Polansky, Marilyn M.; Gautschi, K

doi:10.1002/(sici)1520-670x(199607)9:1<11::aid-jtra2>3.0.co;2-k

Cited by 139 publications

(59 citation statements)

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“…In this study, Cr contents in liver and kidney were significantly increased with the addition of Cr as CrNano in the dosage of from 150 ppb to 1200 ppb. This is consistent with Anderson et al(1996), who reported that there was an approximate doubling of kidney Cr concentration and roughly 50% increased liver Cr concentration with the supplementation of 300 ppb Cr as Cr picoliante in the diets of pigs. Their results from rats (Anderson et al, 1996) showed that increase in tissue Cr following Cr supplementation were greatest for the kidney, followed by the liver, with considerably smaller changes in the heart and skeletal muscle tissues.…”

Section: Discussionsupporting

confidence: 91%

“…Previous studies indicated that supplemental Cr had effects on Cr content in tissues, but the results varied (Chang and Mowat, 1992;Anderson et al, 1996). In this study, Cr contents in liver and kidney were significantly increased with the addition of Cr as CrNano in the dosage of from 150 ppb to 1200 ppb.…”

Section: Discussionmentioning

confidence: 54%

“…Tissue Cr content was determined by the method of Anderson et al(1996) with atomic absorption spectrometry (AA6510, SHIMADZU, Japan).…”

Section: Tissue Chromium Analysesmentioning

confidence: 99%

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Effects of chromium nanoparticle dosage on growth, body composition, serum hormones and tissue chromium in Sprague-Dawley rats

Zha

Wang

et al. 2007

J. Zhejiang Univ. - Sci. B

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This 6-week study was conducted to evaluate the effects of seven different levels of dietary chromium (Cr) (0, 75, 150, 300, 450, 600, and 1 200 ppb Cr) in the form of Cr nanoparticle (CrNano) on growth, body composition, serum hormones and tissue Cr in Sprague-Dawley (SD) rats. Seventy male SD rats (average initial body weight of (83.2±4.4) g) were randomly assigned to seven dietary treatments (n=10). At the end of the trial, body composition was assessed via dual energy X-ray absorptiometry (DEXA). All rats were then sacrificed to collect samples of blood, organs and tissues for determination of serum hormones and tissue Cr contents. The results indicated that lean body mass was significantly increased (P<0.05) due to the addition of 300 and 450 ppb Cr from CrNano. Supplementation of 150, 300, 450, and 600 ppb Cr decreased (P<0.05) percent body fat significantly. Average daily gain was increased (P<0.05) by addition of 75, 150, and 300 ppb Cr and feed efficiency was increased (P<0.05) by supplementation of 75, 300, and 450 ppb Cr. Addition of 300 and 450 ppb Cr decreased (P<0.05) the insulin level in serum greatly. Cr contents in liver and kidney were greatly increased (P<0.05) by the addition of Cr as CrNano in the dosage of from 150 ppb to 1 200 ppb. In addition, Supplementation of 300, 450, and 600 ppb Cr significantly increased (P<0.05) Cr content in the hind leg muscle. These results suggest that supplemental CrNano has beneficial effects on growth performance and body composition, and increases tissue Cr concentration in selected muscles.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 54%

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Effects of chromium nanoparticle dosage on growth, body composition, serum hormones and tissue chromium in Sprague-Dawley rats

Zha

Wang

et al. 2007

J. Zhejiang Univ. - Sci. B

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“…Dowiedziono m.in. braku konsekwencji zdrowotnych związanych z bioakumulacją dużych dawek pikolinianu chromu (Cr +3 ) u szczurów (6). Nie zauważono również efektów genotoksycznych po propionianie Cr (III) (94).…”

Section: Chrom W Badaniach Na Zwierzętach I Ludziachunclassified

“…Wykazano w badaniach na szczurach, że absorpcja Cr w formie nikotynianu i pikolinianu jest wyższa niż w formie chlorku (6). Podobną prawidłowość wykazano u ludzi, u których absorpcja Cr w formie chlorku była niższa względem pikolinianu i Cr podawanego w postaci drożdży.…”

Section: Toksykokinetykaunclassified

Trivalent chromium (CrIII) as a trace element essential for animals and humans

Kosla¹,

Lasocka²,

Skibniewska³

et al. 2018

Medycyna Weterynaryjna

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Trivalent chromium is considered an essential element in the nutrition of both animals and humans. Animal studies confirm many beneficial effects of organic and inorganic chromium compounds on carbohydrate, protein and lipid metabolism in the body. Glucose tolerance factor (GTF) has been demonstrated to involve an active form of trivalent chromium, which sustains normal glucose metabolism. Cr(III) compounds form enzymes and ribonucleic acids, accelerate blood clotting and increase β-glucuronidase activity. Chromium also participates in antioxidant processes, in the synthesis of RNA and DNA and in the immune response, as well as affects secretion of hormones and some vitamins. It has been demonstrated that chromium improves lean body mass in animals, increases growth rate and feed conversion and improves feed intake and energy efficiency. Organic chromium reduces mortality and improves animal reproduction parameters. It also enhances immunity and strengthens response to preventive vaccination. It has been noted in many animal species that a diet low in chromium leads to deficiency symptoms, such as reduced feed intake, lower weight gains, reproductive disorders and increased lipid levels. Chromium deficiency can also result from stress. Moderate chromium deficiency is a risk factor of ischemic heart disease with myocardial infarction. Such a condition may pose a great risk of coronary artery disease. Dietary chromium requirement of an animal body is probably 300 μg Cr/kg d.w. of feed, which is usually satisfied by the ration provided. The highest concentration of chromium is found in the hair, skin and teeth, followed by the liver, kidneys, spleen, and slightly lower in the heart, muscles, pancreas, lungs, bones and brain. Chromium absorption rates in the human intestine range between 0.5 and 2% of the daily intake of inorganic Cr forms, and from 25 to 30% of the element ingested as organic complexes. Clinical studies show that the kinetics of chromium excretion from the system are complex and can be described by a multi-range model, the half-life ranging from 13 min to 192 days. Dietary chromium nanocomposite supplementation (CrNano) used in pigs nutrition has significantly increased Cr content in the blood, longissimus muscle, heart, liver, kidneys, jejunum and ileum. Chromium nanocomposite supplementation acts more effectively on the tissues and, as a consequence, increases the accumulation of the element. .

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Chromium(III) and its Inorganic Compounds [MAK Value Documentation, 2009]

2014

The MAK‐Collection for Occupational Health and Safety

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Published in the series Occupational Toxicants , 2014 The article contains sections titled: Toxic Effects and Mode of Action Mechanism of Action Toxicokinetics and Metabolism Absorption, distribution, elimination Metabolism Effects in Humans Single exposures Repeated exposure Local effects on skin and mucous membranes Allergenic effects Reproductive toxicity Genotoxicity Carcinogenicity Animal Experiments and in vitro Studies Acute toxicity Subacute, subchronic and chronic toxicity Local effects on skin and mucous membranes Allergenic effects Reproductive toxicity Genotoxicity Carcinogenicity Manifesto (MAK value, classification)

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Dietary chromium effects on tissue chromium concentrations and chromium absorption in rats

Cited by 139 publications

References 0 publications

Effects of chromium nanoparticle dosage on growth, body composition, serum hormones and tissue chromium in Sprague-Dawley rats

Effects of chromium nanoparticle dosage on growth, body composition, serum hormones and tissue chromium in Sprague-Dawley rats

Trivalent chromium (CrIII) as a trace element essential for animals and humans

Chromium(III) and its Inorganic Compounds [MAK Value Documentation, 2009]

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