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- Alternatives to antibiotics (1)
- Animal Nutritional Physiological Phenomena (1)
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- Antimicrobial growth promoter (1)
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- Cereal oats (1)
- Digestion (1)
- Equine diets (1)
- Equine fecal microflora (1)
- Ex vivo (1)
- Exogenous lactobacilli. microbial changes (1)
- Feces (1)
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- Hydrogen-Ion Concentration (1)
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Articles 1 - 2 of 2
Full-Text Articles in Medicine and Health Sciences
Hops (Humulus Lupulus L.) Bitter Acids: Modulation Of Rumen Fermentation And Potential As An Alternative Growth Promoter, Michael D. Flythe, Isabelle A. Kagan, Yuxi Wang, Nelmy Narvaez
Hops (Humulus Lupulus L.) Bitter Acids: Modulation Of Rumen Fermentation And Potential As An Alternative Growth Promoter, Michael D. Flythe, Isabelle A. Kagan, Yuxi Wang, Nelmy Narvaez
Animal and Food Sciences Faculty Publications
Antibiotics can improve ruminant growth and efficiency by altering rumen fermentation via selective inhibition of microorganisms. However, antibiotic use is increasingly restricted due to concerns about the spread of antibiotic-resistance. Plant-based antimicrobials are alternatives to antibiotics in animal production. The hops plant (Humulus lupulus L.) produces a range of bioactive secondary metabolites, including antimicrobial prenylated phloroglucinols, which are commonly called alpha- and beta-acids. These latter compounds can be considered phyto-ionophores, phytochemicals with a similar antimicrobial mechanism of action to ionophore antibiotics (e.g., monensin, lasalocid). Like ionophores, the hop beta-acids inhibit rumen bacteria possessing a classical Gram-positive cell envelope. This …
Exogenous Lactobacilli Mitigate Microbial Changes Associated With Grain Fermentation (Corn, Oats, And Wheat) By Equine Fecal Microflora Ex Vivo, Brittany E. Harlow, Laurie M. Lawrence, Patricia A. Harris, Glen E. Aiken, Michael D. Flythe
Exogenous Lactobacilli Mitigate Microbial Changes Associated With Grain Fermentation (Corn, Oats, And Wheat) By Equine Fecal Microflora Ex Vivo, Brittany E. Harlow, Laurie M. Lawrence, Patricia A. Harris, Glen E. Aiken, Michael D. Flythe
Animal and Food Sciences Faculty Publications
Cereal grains are often included in equine diets. When starch intake exceeds foregut digestion starch will reach the hindgut, impacting microbial ecology. Probiotics (e.g., lactobacilli) are reported to mitigate GI dysbioses in other species. This study was conducted to determine the effect of exogenous lactobacilli on pH and the growth of amylolytic and lactate-utilizing bacteria. Feces were collected from 3 mature geldings fed grass hay with access to pasture. Fecal microbes were harvested by differential centrifugation, washed, and re-suspended in anaerobic media containing ground corn, wheat, or oats at 1.6% (w/v) starch and one of five …