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Journal Abstract Search

411 related items for PubMed ID: 31255268

  • 1. 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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  • 4. Influence of ad libitum milk replacer feeding and butyrate supplementation on the systemic and hepatic insulin-like growth factor I and its binding proteins in Holstein calves.
    Frieten D, Gerbert C, Koch C, Dusel G, Eder K, Hoeflich A, Mielenz B, Hammon HM.
    J Dairy Sci; 2018 Feb; 101(2):1661-1672. PubMed ID: 29248211
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  • 5. Effects of ad libitum milk replacer feeding and butyrate supplementation on behavior, immune status, and health of Holstein calves in the postnatal period.
    Gerbert C, Frieten D, Koch C, Dusel G, Eder K, Stefaniak T, Bajzert J, Jawor P, Tuchscherer A, Hammon HM.
    J Dairy Sci; 2018 Aug; 101(8):7348-7360. PubMed ID: 29778472
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  • 6. Is rumen development in newborn calves affected by different liquid feeds and small intestine development?
    Górka P, Kowalski ZM, Pietrzak P, Kotunia A, Jagusiak W, Zabielski R.
    J Dairy Sci; 2011 Jun; 94(6):3002-13. PubMed ID: 21605770
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  • 7. Effect of method of delivery of sodium butyrate on maturation of the small intestine in newborn calves.
    Górka P, Pietrzak P, Kotunia A, Zabielski R, Kowalski ZM.
    J Dairy Sci; 2014 Feb; 97(2):1026-35. PubMed ID: 24342681
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  • 8. Effects of milk replacer meal size on feed intake, growth performance, and blood metabolites and hormones of calves fed milk replacer with or without butyrate ad libitum: A cluster-analytic approach.
    Ghaffari MH, Hammon HM, Frieten D, Gerbert C, Dusel G, Koch C.
    J Dairy Sci; 2021 Apr; 104(4):4650-4664. PubMed ID: 33589259
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  • 9. Inclusion of psyllium in milk replacer for neonatal calves. 2. Effects on volatile fatty acid concentrations, microbial populations, and gastrointestinal tract size.
    Cannon SJ, Fahey GC, Pope LL, Bauer LL, Wallace RL, Miller BL, Drackley JK.
    J Dairy Sci; 2010 Oct; 93(10):4744-58. PubMed ID: 20855009
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  • 10. Effects of 2 colostrum and subsequent milk replacer feeding intensities on methane production, rumen development, and performance in young calves.
    Tümmler LM, Derno M, Röttgen V, Vernunft A, Tuchscherer A, Wolf P, Kuhla B.
    J Dairy Sci; 2020 Jul; 103(7):6054-6069. PubMed ID: 32418697
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  • 11. Effects of supplemental butyrate and weaning on rumen fermentation in Holstein calves.
    McCurdy DE, Wilkins KR, Hiltz RL, Moreland S, Klanderman K, Laarman AH.
    J Dairy Sci; 2019 Oct; 102(10):8874-8882. PubMed ID: 31351719
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  • 12. Effects of Saccharomyces cerevisiae fermentation products on dairy calves: Ruminal fermentation, gastrointestinal morphology, and microbial community.
    Xiao JX, Alugongo GM, Chung R, Dong SZ, Li SL, Yoon I, Wu ZH, Cao ZJ.
    J Dairy Sci; 2016 Jul; 99(7):5401-5412. PubMed ID: 27157569
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  • 13. 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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  • 16. Different milk feeding intensities during the first 4 weeks of rearing in dairy calves: Part 1: Effects on performance and production from birth over the first lactation.
    Korst M, Koch C, Kesser J, Müller U, Romberg FJ, Rehage J, Eder K, Sauerwein H.
    J Dairy Sci; 2017 Apr; 100(4):3096-3108. PubMed ID: 28131579
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  • 18. Effect of sodium butyrate supplementation in milk replacer and starter diet on rumen development in calves.
    Gorka P, Kowalski ZM, Pietrzak P, Kotunia A, Kiljanczyk R, Flaga J, Holst JJ, Guilloteau P, Zabielski R.
    J Physiol Pharmacol; 2009 Oct; 60 Suppl 3():47-53. PubMed ID: 19996481
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