Supplemental chromium in cold-stressed buffalo calves (Bubalus bubalis): effects on growth performance, nutrient utilization and cell mediated and humoral immune response

Abstract: Various stressors significantly increase urinary excretion of chromium (Cr), suggesting that Cr may be physiologically linked to the responses to control stress. The aim of this study was to determine the physiological responses of buffalo calves to increased Cr supply under low ambient temperature. In a randomized complete block design, twenty-four Murrah buffalo calves were assigned to 4 treatments for a period of 120 days. Treatments included either no supplemental Cr (control), 0.5 mg of supplemental Cr/kg… Show more

“…Although Cr-yeast reduced Fe concentration in liver (from 685.4 for control to an average of 570.0 mg Fe/ kg for Cr-yeast), it was higher than the reference (30-300 mg Fe/kg) values (Puls 1994). Cr has antioxidant and reducing capacity over Fe þ3 , Fe þ2 , this allows for greater absorption and retention of Fe (Kumar et al 2017;Alhidary et al 2018), which may explain the disappearance of Fe in the liver by increasing up to 0.4 mg Cr/kg DM in this experiment. Similarly, Cr-yeast supplementation reduced Cu concentration in liver (from 196 mg Cu/kg with the control treatment to an average of 169 mg Cu/kg with Cryeast), but that reduction was higher than the reference (25-100 mg/kg) values (Puls 1994).…”

Effects of dietary chromium-yeast level on growth performance, blood metabolites, meat traits and muscle fatty acids profile, and microminerals content in liver and bone of lambs

“…Although Cr-yeast reduced Fe concentration in liver (from 685.4 for control to an average of 570.0 mg Fe/ kg for Cr-yeast), it was higher than the reference (30-300 mg Fe/kg) values (Puls 1994). Cr has antioxidant and reducing capacity over Fe þ3 , Fe þ2 , this allows for greater absorption and retention of Fe (Kumar et al 2017;Alhidary et al 2018), which may explain the disappearance of Fe in the liver by increasing up to 0.4 mg Cr/kg DM in this experiment. Similarly, Cr-yeast supplementation reduced Cu concentration in liver (from 196 mg Cu/kg with the control treatment to an average of 169 mg Cu/kg with Cryeast), but that reduction was higher than the reference (25-100 mg/kg) values (Puls 1994).…”

Effects of dietary chromium-yeast level on growth performance, blood metabolites, meat traits and muscle fatty acids profile, and microminerals content in liver and bone of lambs

Influence of dietary chromium yeast supplementation on apparent trace elements metabolism in growing camel (Camelus dromedarius) reared under hot summer conditions

Effects of Nickel Supplementation on Antioxidant Status, Immune Characteristics, and Energy and Lipid Metabolism in Growing Cattle