Potential use of chromium to combat thermal stress in animals: A review

Potential use of chromium to combat thermal stress in animals: A review

Heat stress (HS) has adverse effects on the body: it decreases body weight, feed efficiency, feed intake, carcass quality, and nutrient digestibility. Chromium (Cr) can prevent lipid peroxidation induced by HS through its strong antioxidant activities, especially when it is added to the poultry diet...

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Veröffentlicht in:The Science of the total environment 2020-03, Vol.707, p.135996, Article 135996
Hauptverfasser: Bin-Jumah, May, Abd El-Hack, Mohamed E., Abdelnour, Sameh A., Hendy, Yasmeen A., Ghanem, Hager A., Alsafy, Sara A., Khafaga, Asmaa F., Noreldin, Ahmed E., Shaheen, Hazem, Samak, Dalia, Momenah, Maha A., Allam, Ahmed A., AlKahtane, Abdullah A., Alkahtani, Saad, Abdel-Daim, Mohamed M., Aleya, Lotfi
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Sprache:eng
Schlagworte:
Animal Feed
Animals
Chickens
Chromium
Chromium - analysis
Diet
Dietary Supplements
Environmental Sciences
Environmental Sciences & Ecology
Female
Growth
Heat shock proteins
Heat stress
Lactation
Life Sciences & Biomedicine
Science & Technology
Swine
Thermoregulation
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container_end_page
container_issue
container_start_page 135996
container_title The Science of the total environment
container_volume 707
creator Bin-Jumah, May
Abd El-Hack, Mohamed E.
Abdelnour, Sameh A.
Hendy, Yasmeen A.
Ghanem, Hager A.
Alsafy, Sara A.
Khafaga, Asmaa F.
Noreldin, Ahmed E.
Shaheen, Hazem
Samak, Dalia
Momenah, Maha A.
Allam, Ahmed A.
AlKahtane, Abdullah A.
Alkahtani, Saad
Abdel-Daim, Mohamed M.
Aleya, Lotfi
description Heat stress (HS) has adverse effects on the body: it decreases body weight, feed efficiency, feed intake, carcass quality, and nutrient digestibility. Chromium (Cr) can prevent lipid peroxidation induced by HS through its strong antioxidant activities, especially when it is added to the poultry diet. It improves the action of insulin and nutrient metabolism (of lipids, proteins, nucleic acid, and carbohydrates) through activation of enzymes associated with such pathways. The results of the studies on Cr added to diets with concentrations of 0.05 mg Cr/kg of Cr-methionine led to improved feed efficiency and DM intake by cows and Holstein dairy calves exposed to high environmental temperatures. Moreover, calves that received Cr at levels of 0.05 mg/kg of body weight tended to have higher serum concentrations of glucose and higher ratios of insulin to glucose. In heat-stressed pigs, Cr addition (200 ppb) increased blood neutrophils by about 37%. Several studies have asserted that Cr can inhibit inflammation in lactating cows by promoting the release of Hsp72, assisting production of IL-10 and inhibiting degradation of IκBα in HS conditions. In addition, Cr supplementation was observed to possibly have positive impacts on both cell-mediated and humeral immunity in heat-stressed buffalo calves. Studies over the last two decades have shown with certainty that chromium supplementation has an impact on many variables in chickens. Moreover, Cr is believed to increase insulin action in insulin-sensitive tissues (i.e., adipose and muscles), resulting in increased farm animal productivity through the improvement of feed intake, growth rate, carcass quality, reproductive parameters and immune functions. [Display omitted] •Heat stress influences nutrient digestibility, carcass quality and immune function.•Chromium (Cr) is a strong antioxidant that prevents HS-induced lipid peroxidation.•Cr improves nutrient metabolism and cortisol hormone activity.•Cr promotes insulin action in responsive tissues, thereby increasing farm animal productivity.•Cr is a promising agent for combating the adverse effects of heat stress in animals.
doi_str_mv 10.1016/j.scitotenv.2019.135996
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Chromium (Cr) can prevent lipid peroxidation induced by HS through its strong antioxidant activities, especially when it is added to the poultry diet. It improves the action of insulin and nutrient metabolism (of lipids, proteins, nucleic acid, and carbohydrates) through activation of enzymes associated with such pathways. The results of the studies on Cr added to diets with concentrations of 0.05 mg Cr/kg of Cr-methionine led to improved feed efficiency and DM intake by cows and Holstein dairy calves exposed to high environmental temperatures. Moreover, calves that received Cr at levels of 0.05 mg/kg of body weight tended to have higher serum concentrations of glucose and higher ratios of insulin to glucose. In heat-stressed pigs, Cr addition (200 ppb) increased blood neutrophils by about 37%. Several studies have asserted that Cr can inhibit inflammation in lactating cows by promoting the release of Hsp72, assisting production of IL-10 and inhibiting degradation of IκBα in HS conditions. In addition, Cr supplementation was observed to possibly have positive impacts on both cell-mediated and humeral immunity in heat-stressed buffalo calves. Studies over the last two decades have shown with certainty that chromium supplementation has an impact on many variables in chickens. Moreover, Cr is believed to increase insulin action in insulin-sensitive tissues (i.e., adipose and muscles), resulting in increased farm animal productivity through the improvement of feed intake, growth rate, carcass quality, reproductive parameters and immune functions. [Display omitted] •Heat stress influences nutrient digestibility, carcass quality and immune function.•Chromium (Cr) is a strong antioxidant that prevents HS-induced lipid peroxidation.•Cr improves nutrient metabolism and cortisol hormone activity.•Cr promotes insulin action in responsive tissues, thereby increasing farm animal productivity.•Cr is a promising agent for combating the adverse effects of heat stress in animals.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2019.135996</identifier><identifier>PMID: 31865090</identifier><language>eng</language><publisher>AMSTERDAM: Elsevier B.V</publisher><subject>Animal Feed ; Animals ; Chickens ; Chromium ; Chromium - analysis ; Diet ; Dietary Supplements ; Environmental Sciences ; Environmental Sciences &amp; Ecology ; Female ; Growth ; Heat shock proteins ; Heat stress ; Lactation ; Life Sciences &amp; Biomedicine ; Science &amp; Technology ; Swine ; Thermoregulation</subject><ispartof>The Science of the total environment, 2020-03, Vol.707, p.135996, Article 135996</ispartof><rights>2019 Elsevier B.V.</rights><rights>Copyright © 2019 Elsevier B.V. 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Several studies have asserted that Cr can inhibit inflammation in lactating cows by promoting the release of Hsp72, assisting production of IL-10 and inhibiting degradation of IκBα in HS conditions. In addition, Cr supplementation was observed to possibly have positive impacts on both cell-mediated and humeral immunity in heat-stressed buffalo calves. Studies over the last two decades have shown with certainty that chromium supplementation has an impact on many variables in chickens. Moreover, Cr is believed to increase insulin action in insulin-sensitive tissues (i.e., adipose and muscles), resulting in increased farm animal productivity through the improvement of feed intake, growth rate, carcass quality, reproductive parameters and immune functions. 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Chromium (Cr) can prevent lipid peroxidation induced by HS through its strong antioxidant activities, especially when it is added to the poultry diet. It improves the action of insulin and nutrient metabolism (of lipids, proteins, nucleic acid, and carbohydrates) through activation of enzymes associated with such pathways. The results of the studies on Cr added to diets with concentrations of 0.05 mg Cr/kg of Cr-methionine led to improved feed efficiency and DM intake by cows and Holstein dairy calves exposed to high environmental temperatures. Moreover, calves that received Cr at levels of 0.05 mg/kg of body weight tended to have higher serum concentrations of glucose and higher ratios of insulin to glucose. In heat-stressed pigs, Cr addition (200 ppb) increased blood neutrophils by about 37%. Several studies have asserted that Cr can inhibit inflammation in lactating cows by promoting the release of Hsp72, assisting production of IL-10 and inhibiting degradation of IκBα in HS conditions. In addition, Cr supplementation was observed to possibly have positive impacts on both cell-mediated and humeral immunity in heat-stressed buffalo calves. Studies over the last two decades have shown with certainty that chromium supplementation has an impact on many variables in chickens. Moreover, Cr is believed to increase insulin action in insulin-sensitive tissues (i.e., adipose and muscles), resulting in increased farm animal productivity through the improvement of feed intake, growth rate, carcass quality, reproductive parameters and immune functions. 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subjects Animal Feed
Animals
Chickens
Chromium
Chromium - analysis
Diet
Dietary Supplements
Environmental Sciences
Environmental Sciences & Ecology
Female
Growth
Heat shock proteins
Heat stress
Lactation
Life Sciences & Biomedicine
Science & Technology
Swine
Thermoregulation
title Potential use of chromium to combat thermal stress in animals: A review
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