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Journal Abstract Search

735 related items for PubMed ID: 15446478

  • 1. In vitro fermentation of various fiber and starch sources by pig fecal inocula.
    Wang JF, Zhu YH, Li DF, Wang Z, Jensen BB.
    J Anim Sci; 2004 Sep; 82(9):2615-22. PubMed ID: 15446478
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  • 2. Influence of the amount of dietary fiber on the available energy from hindgut fermentation in growing pigs: use of cannulated pigs and in vitro fermentation.
    Anguita M, Canibe N, Pérez JF, Jensen BB.
    J Anim Sci; 2006 Oct; 84(10):2766-78. PubMed ID: 16971578
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  • 3. Feed ingredients differing in fermentable fibre and indigestible protein content affect fermentation metabolites and faecal nitrogen excretion in growing pigs.
    Jha R, Leterme P.
    Animal; 2012 Apr; 6(4):603-11. PubMed ID: 22436276
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  • 4. In vitro fermentation of swine ileal digesta containing oat bran dietary fiber by rat cecal inocula adapted to the test fiber increases propionate production but fermentation of wheat bran ileal digesta does not produce more butyrate.
    Monsma DJ, Thorsen PT, Vollendorf NW, Crenshaw TD, Marlett JA.
    J Nutr; 2000 Mar; 130(3):585-93. PubMed ID: 10702589
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  • 5. Dietary galactooligosaccharides affect ileal and total-tract nutrient digestibility, ileal and fecal bacterial concentrations, and ileal fermentative characteristics of growing pigs.
    Smiricky-Tjardes MR, Grieshop CM, Flickinger EA, Bauer LL, Fahey GC.
    J Anim Sci; 2003 Oct; 81(10):2535-45. PubMed ID: 14552381
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  • 7. Quantification of short-chain fatty acids and energy production from hindgut fermentation in cannulated pigs fed graded levels of wheat bran.
    Iyayi EA, Adeola O.
    J Anim Sci; 2015 Oct; 93(10):4781-7. PubMed ID: 26523571
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  • 9. Nonstarch polysaccharide-degrading enzymes alter the microbial community and the fermentation patterns of barley cultivars and wheat products in an in vitro model of the porcine gastrointestinal tract.
    Bindelle J, Pieper R, Montoya CA, Van Kessel AG, Leterme P.
    FEMS Microbiol Ecol; 2011 Jun; 76(3):553-63. PubMed ID: 21348887
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  • 10. In vitro production of short-chain fatty acids from resistant starch by pig faecal inoculum.
    Giuberti G, Gallo A, Moschini M, Masoero F.
    Animal; 2013 Sep; 7(9):1446-53. PubMed ID: 23782951
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  • 14. Rat cecal inocula produce different patterns of short-chain fatty acids than fecal inocula in in vitro fermentations.
    Monsma DJ, Marlett JA.
    J Nutr; 1995 Oct; 125(10):2463-70. PubMed ID: 7562080
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  • 15. Kiwifruit fibre level influences the predicted production and absorption of SCFA in the hindgut of growing pigs using a combined in vivo-in vitro digestion methodology.
    Montoya CA, Rutherfurd SM, Moughan PJ.
    Br J Nutr; 2016 Apr; 115(8):1317-24. PubMed ID: 26277926
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  • 16. Psyllium shifts the fermentation site of high-amylose cornstarch toward the distal colon and increases fecal butyrate concentration in rats.
    Morita T, Kasaoka S, Hase K, Kiriyama S.
    J Nutr; 1999 Nov; 129(11):2081-7. PubMed ID: 10539788
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  • 17. Dietary carbohydrates alter the fecal composition and pH and the ammonia emission from slurry of growing pigs.
    Canh TT, Sutton AL, Aarnink AJ, Verstegen MW, Schrama JW, Bakker GC.
    J Anim Sci; 1998 Jul; 76(7):1887-95. PubMed ID: 9690645
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  • 18. Adaptation to the digestion of nutrients of a starch diet or a non-starch polysaccharide diet in group-housed pregnant sows.
    van der Peet-Schwering CM, Kemp B, den Hartog LA, Schrama JW, Verstegen MW.
    J Anim Physiol Anim Nutr (Berl); 2002 Dec; 86(11-12):414-21. PubMed ID: 12534834
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  • 19. Fecal inoculum can be used to determine the rate and extent of in vitro fermentation of dietary fiber sources across three lemur species that differ in dietary profile: Varecia variegata, Eulemur fulvus and Hapalemur griseus.
    Campbell JL, Williams CV, Eisemann JH.
    J Nutr; 2002 Oct; 132(10):3073-80. PubMed ID: 12368398
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