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The information on this site is from academic and research studies. Applicability to humans must be determined by a licensed medical professional.

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. Kodo millet whole grain and bran supplementation prevents high-fat diet induced derangements in a lipid profile, inflammatory status and gut bacteria in mice.
    Food & function (Food Funct ) Vol: 8 Issue 3 Pages: 1174-1183
    Pub: 2017 Mar 22 Epub:
    • Sarma SM
    • Khare P
    • Jagtap S
    • Singh DP
    • Baboota RK
    • Podili K
    • Boparai RK
    • Kaur J
    • Bhutani KK
    • Bishnoi M
    • Kondepudi KK

  2. 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

  3. 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

  4. Intake of whole-grain and fiber-rich rye bread versus refined wheat bread does not differentiate intestinal microbiota composition in Finnish adults with metabolic syndrome.
    The Journal of nutrition (J Nutr ) Vol: 143 Issue 5 Pages: 648-55
    Pub: 2013 May Epub: 2013 Mar 20
    • Lappi J
    • Salojärvi J
    • Kolehmainen M
    • Mykkänen H
    • Poutanen K
    • de Vos WM
    • Salonen A

  5. Composition and metabolism of fecal microbiota from normal and overweight children are differentially affected by melibiose, raffinose and raffinose-derived fructans.
    Anaerobe (Anaerobe ) Vol: 52 Issue Pages: 100-110
    Pub: 2018 Aug Epub: 2018 Jun 20
    • Adamberg K
    • Adamberg S
    • Ernits K
    • Larionova A
    • Voor T
    • Jaagura M
    • Visnapuu T
    • Alamäe T

  6. Fermentation of non-digestible raffinose family oligosaccharides and galactomannans by probiotics.
    Food & function (Food Funct ) Vol: 9 Issue 3 Pages: 1638-1646
    Pub: 2018 Mar 1 Epub: 2018 Feb 21
    • Zartl B
    • Silberbauer K
    • Loeppert R
    • Viernstein H
    • Praznik W
    • Mueller M

  7. Polyphenol-rich sorghum brans alter colon microbiota and impact species diversity and species richness after multiple bouts of dextran sodium sulfate-induced colitis.
    FEMS microbiology ecology (FEMS Microbiol Ecol ) Vol: 91 Issue 3 Pages:
    Pub: 2015 Mar Epub: 2015 Jan 14
    • Ritchie LE
    • Sturino JM
    • Carroll RJ
    • Rooney LW
    • Azcarate-Peril MA
    • Turner ND

  8. In vitro evaluation of the microbiota modulation abilities of different sized whole oat grain flakes.
    Anaerobe (Anaerobe ) Vol: 16 Issue 5 Pages: 483-8
    Pub: 2010 Oct Epub: 2010 Jul 17
    • Connolly ML
    • Lovegrove JA
    • Tuohy KM

  9. Dietary Casein and Soy Protein Isolate Modulate the Effects of Raffinose and Fructooligosaccharides on the Composition and Fermentation of Gut Microbiota in Rats.
    Journal of food science (J Food Sci ) Vol: 81 Issue 8 Pages: H2093-8
    Pub: 2016 Aug Epub: 2016 Jul 19
    • Bai G
    • Ni K
    • Tsuruta T
    • Nishino N

  10. 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

Full list available by paid subscriptions

For More information see this summary.