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Journal Abstract Search

571 related items for PubMed ID: 25108868

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  • 3. Glucose transporters and enzymes related to glucose synthesis in small intestinal mucosa of mid-lactation dairy cows fed 2 levels of starch.
    Lohrenz AK, Duske K, Schönhusen U, Losand B, Seyfert HM, Metges CC, Hammon HM.
    J Dairy Sci; 2011 Sep; 94(9):4546-55. PubMed ID: 21854927
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  • 4. Effects of ad libitum milk replacer feeding and butyrate supplementation on the epithelial growth and development of the gastrointestinal tract in Holstein calves.
    Koch C, Gerbert C, Frieten D, Dusel G, Eder K, Zitnan R, Hammon HM.
    J Dairy Sci; 2019 Sep; 102(9):8513-8526. PubMed ID: 31255268
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  • 5. Effects of feeding unlimited amounts of milk replacer for the first 5 weeks of age on rumen and small intestinal growth and development in dairy calves.
    Schäff CT, Gruse J, Maciej J, Pfuhl R, Zitnan R, Rajsky M, Hammon HM.
    J Dairy Sci; 2018 Jan; 101(1):783-793. PubMed ID: 29055538
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  • 7. Transition milk stimulates intestinal development of neonatal Holstein calves.
    Van Soest B, Weber Nielsen M, Moeser AJ, Abuelo A, VandeHaar MJ.
    J Dairy Sci; 2022 Aug; 105(8):7011-7022. PubMed ID: 35691749
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  • 8. Sweet taste receptor expression in ruminant intestine and its activation by artificial sweeteners to regulate glucose absorption.
    Moran AW, Al-Rammahi M, Zhang C, Bravo D, Calsamiglia S, Shirazi-Beechey SP.
    J Dairy Sci; 2014 Aug; 97(8):4955-72. PubMed ID: 24881785
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  • 9. Effects of colostrum versus formula feeding on hepatic glucocorticoid and α₁- and β₂-adrenergic receptors in neonatal calves and their effect on glucose and lipid metabolism.
    Schäff CT, Rohrbeck D, Steinhoff-Wagner J, Kanitz E, Sauerwein H, Bruckmaier RM, Hammon HM.
    J Dairy Sci; 2014 Oct; 97(10):6344-57. PubMed ID: 25108854
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  • 10. Short communication: Effect of delaying the first colostrum feeding on small intestinal histomorphology and serum insulin-like growth factor-1 concentrations in neonatal male Holstein calves.
    Fischer-Tlustos AJ, Pyo J, Song Y, Renaud DL, Guan LL, Steele MA.
    J Dairy Sci; 2020 Dec; 103(12):12109-12116. PubMed ID: 33041024
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  • 12. Influence of dietary fructose supplementation on visceral organ mass, carbohydrase activity, and mRNA expression of genes involved in small intestinal carbohydrate assimilation in neonatal calves.
    Trotta RJ, Ward AK, Swanson KC.
    J Dairy Sci; 2020 Nov; 103(11):10060-10073. PubMed ID: 32921447
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  • 14. Colostrum quality affects immune system establishment and intestinal development of neonatal calves.
    Yang M, Zou Y, Wu ZH, Li SL, Cao ZJ.
    J Dairy Sci; 2015 Oct; 98(10):7153-63. PubMed ID: 26233454
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  • 15. Effects of maternal over- and undernutrition on intestinal morphology, enzyme activity, and gene expression of nutrient transporters in newborn and weaned pigs.
    Cao M, Che L, Wang J, Yang M, Su G, Fang Z, Lin Y, Xu S, Wu D.
    Nutrition; 2014 Oct; 30(11-12):1442-7. PubMed ID: 25280425
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  • 18. Insulin-like growth factor and insulin receptors in intestinal mucosa of neonatal calves.
    Georgiev IP, Georgieva TM, Pfaffl M, Hammon HM, Blum JW.
    J Endocrinol; 2003 Jan; 176(1):121-32. PubMed ID: 12525256
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  • 20. Transepithelial transport of glucose and mRNA of glucose transporters in the small intestine of rats with iron-deficiency anemia.
    Chang Wayhs ML, de Morais MB, Machado UF, Nassar SM, Neto UF, Silvério Amâncio OM.
    Nutrition; 2011 Jan; 27(1):111-115. PubMed ID: 21146130
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