}

Partial list of Citations used for Recommendations or Conditions

Recent additions may not be included. There is an intentional delay in making those available.

  1. Effect of Whole-Grain Barley on the Human Fecal Microbiota and Metabolome.
    Applied and environmental microbiology (Appl Environ Microbiol ) Vol: 81 Issue 22 Pages: 7945-56
    Pub: 2015 Nov Epub: 2015 Sep 18
    • De Angelis M
    • Montemurno E
    • Vannini L
    • Cosola C
    • Cavallo N
    • Gozzi G
    • Maranzano V
    • Di Cagno R
    • Gobbetti M
    • Gesualdo L

  2. Effects of two whole-grain barley varieties on caecal SCFA, gut microbiota and plasma inflammatory markers in rats consuming low- and high-fat diets.
    The British journal of nutrition (Br J Nutr ) Vol: 113 Issue 10 Pages: 1558-70
    Pub: 2015 May 28 Epub: 2015 Apr 13
    • Zhong Y
    • Marungruang N
    • Fåk F
    • Nyman M

  3. Wheat- and barley-based diets with or without additives influence broiler chicken performance, nutrient digestibility and intestinal microflora.
    Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 92 Issue 1 Pages: 184-90
    Pub: 2012 Jan 15 Epub: 2011 Jul 21
    • Rodríguez ML
    • Rebolé A
    • Velasco S
    • Ortiz LT
    • Treviño J
    • Alzueta C

  4. Dietary fiber-rich barley products beneficially affect the intestinal tract of rats.
    The Journal of nutrition (J Nutr ) Vol: 132 Issue 12 Pages: 3704-14
    Pub: 2002 Dec Epub:
    • Dongowski G
    • Huth M
    • Gebhardt E
    • Flamme W

  5. Modulation of gut microbiota in rats fed high-fat diets by processing whole-grain barley to barley malt.
    Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 59 Issue 10 Pages: 2066-76
    Pub: 2015 Oct Epub: 2015 Aug 26
    • Zhong Y
    • Nyman M
    • Fåk F

  6. Curated database of commensal, symbiotic and pathogenic microbiota
    Generative Bioinformatics (Center of Excellence in Generative Medicine ) Vol: Issue Pages:
    Pub: 2014 Jun Epub:
    • D'Adamo Peter

  7. Wheat and barley differently affect porcine intestinal microbiota.
    Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 96 Issue 6 Pages: 2230-9
    Pub: 2016 Apr Epub: 2015 Aug 14
    • Weiss E
    • Aumiller T
    • Spindler HK
    • Rosenfelder P
    • Eklund M
    • Witzig M
    • Jørgensen H
    • Bach Knudsen KE
    • Mosenthin R

  8. Effect of ß -glucanase and xylanase supplementation of barley- and rye-based diets on caecal microbiota of broiler chickens.
    British poultry science (Br Poult Sci ) Vol: 51 Issue 4 Pages: 546-57
    Pub: 2010 Aug Epub:
    • Jozefiak D
    • Rutkowski A
    • Kaczmarek S
    • Jensen BB
    • Engberg RM
    • Højberg O

  9. In vitro fermentation of oat and barley derived beta-glucans by human faecal microbiota.
    FEMS microbiology ecology (FEMS Microbiol Ecol ) Vol: 64 Issue 3 Pages: 482-93
    Pub: 2008 Jun Epub: 2008 Apr 21
    • Hughes SA
    • Shewry PR
    • Gibson GR
    • McCleary BV
    • Rastall RA

  10. In situ identification and quantification of starch-hydrolyzing bacteria attached to barley and corn grain in the rumen of cows fed barley-based diets.
    FEMS microbiology ecology (FEMS Microbiol Ecol ) Vol: 91 Issue 8 Pages: fiv077
    Pub: 2015 Aug Epub: 2015 Jul 2
    • Xia Y
    • Kong Y
    • Seviour R
    • Yang HE
    • Forster R
    • Vasanthan T
    • McAllister T

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