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. The role of short-chain fatty acids in microbiota-gut-brain communication.
    Nature reviews. Gastroenterology & hepatology (Nat Rev Gastroenterol Hepatol ) Vol: 16 Issue 8 Pages: 461-478
    Pub: 2019 Aug Epub:
    • Dalile B
    • Van Oudenhove L
    • Vervliet B
    • Verbeke K

  2. Navy and black bean supplementation primes the colonic mucosal microenvironment to improve gut health.
    The Journal of nutritional biochemistry (J Nutr Biochem ) Vol: 49 Issue Pages: 89-100
    Pub: 2017 Nov Epub: 2017 Aug 10
    • Monk JM
    • Lepp D
    • Wu W
    • Pauls KP
    • Robinson LE
    • Power KA

  3. Human gut bacterial communities are altered by addition of cruciferous vegetables to a controlled fruit- and vegetable-free diet.
    The Journal of nutrition (J Nutr ) Vol: 139 Issue 9 Pages: 1685-91
    Pub: 2009 Sep Epub: 2009 Jul 29
    • Li F
    • Hullar MA
    • Schwarz Y
    • Lampe JW

  4. Dietary Factors and Modulation of Bacteria Strains of <i>Akkermansia muciniphila</i> and <i>Faecalibacterium prausnitzii</i>: A Systematic Review.
    Nutrients (Nutrients ) Vol: 11 Issue 7 Pages:
    Pub: 2019 Jul 11 Epub: 2019 Jul 11
    • Verhoog S
    • Taneri PE
    • Roa Díaz ZM
    • Marques-Vidal P
    • Troup JP
    • Bally L
    • Franco OH
    • Glisic M
    • Muka T

  5. Dietary soy, meat, and fish proteins modulate the effects of prebiotic raffinose on composition and fermentation of gut microbiota in rats.
    International journal of food sciences and nutrition (Int J Food Sci Nutr ) Vol: 69 Issue 4 Pages: 480-487
    Pub: 2018 Jun Epub: 2017 Sep 28
    • Bai G
    • Tsuruta T
    • Nishino N

  6. In vitro fermentation of raffinose by the human gut bacteria.
    Food & function (Food Funct ) Vol: 9 Issue 11 Pages: 5824-5831
    Pub: 2018 Nov 14 Epub:
    • Mao B
    • Tang H
    • Gu J
    • Li D
    • Cui S
    • Zhao J
    • Zhang H
    • Chen W

  7. Evaluation of bean and soy tempeh influence on intestinal bacteria and estimation of antibacterial properties of bean tempeh.
    Polish journal of microbiology (Pol J Microbiol ) Vol: 62 Issue 2 Pages: 189-94
    Pub: 2013 Epub:
    • Kuligowski M
    • Jasinska-Kuligowska I
    • Nowak J

  8. Antibacterial activity of the broad bean extracts on resistant bacteria.
    Pakistan journal of biological sciences : PJBS (Pak J Biol Sci ) Vol: 10 Issue 3 Pages: 398-402
    Pub: 2007 Feb 1 Epub:
    • Peyvast G
    • Khorsandi Z

  9. Fermentation of plant cell wall derived polysaccharides and their corresponding oligosaccharides by intestinal bacteria.
    Journal of agricultural and food chemistry (J Agric Food Chem ) Vol: 48 Issue 5 Pages: 1644-52
    Pub: 2000 May Epub:
    • Van Laere KM
    • Hartemink R
    • Bosveld M
    • Schols HA
    • Voragen AG

  10. Dietary Broccoli Impacts Microbial Community Structure and Attenuates Chemically Induced Colitis in Mice in an Ah receptor dependent manner.
    Journal of functional foods (J Funct Foods ) Vol: 37 Issue Pages: 685-698
    Pub: 2017 Oct Epub: 2017 Sep 1
    • Hubbard TD
    • Murray IA
    • Nichols RG
    • Cassel K
    • Podolsky M
    • Kuzu G
    • Tian Y
    • Smith P
    • Kennett MJ
    • Patterson AD
    • Perdew GH

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