}

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. Lupin kernel fiber consumption modifies fecal microbiota in healthy men as determined by rRNA gene fluorescent in situ hybridization.
    European journal of nutrition (Eur J Nutr ) Vol: 45 Issue 6 Pages: 335-41
    Pub: 2006 Sep Epub: 2006 Jun 8
    • Smith SC
    • Choy R
    • Johnson SK
    • Hall RS
    • Wildeboer-Veloo AC
    • Welling GW

  2. Dairy and plant based food intakes are associated with altered faecal microbiota in 2 to 3 year old Australian children.
    Scientific reports (Sci Rep ) Vol: 6 Issue Pages: 32385
    Pub: 2016 Oct 3 Epub: 2016 Oct 3
    • Smith-Brown P
    • Morrison M
    • Krause L
    • Davies PS

  3. 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

  4. In vitro fermentation of lupin seeds (Lupinus albus) and broad beans (Vicia faba): dynamic modulation of the intestinal microbiota and metabolomic output.
    Food & function (Food Funct ) Vol: 6 Issue 10 Pages: 3316-22
    Pub: 2015 Oct Epub:
    • Gullón P
    • Gullón B
    • Tavaria F
    • Vasconcelos M
    • Gomes AM

  5. Fecal microbiome composition and stability in 4- to 8-year old children is associated with dietary patterns and nutrient intake.
    The Journal of nutritional biochemistry (J Nutr Biochem ) Vol: 56 Issue Pages: 165-174
    Pub: 2018 Jun Epub: 2018 Mar 20
    • Berding K
    • Holscher HD
    • Arthur AE
    • Donovan SM

  6. 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

  7. 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

  8. 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

  9. 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

  10. Effect of prebiotic carbohydrates on growth, bile survival and cholesterol uptake abilities of dairy-related bacteria.
    Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 94 Issue 6 Pages: 1184-90
    Pub: 2014 Apr Epub: 2013 Nov 1
    • Ziar H
    • Gérard P
    • Riazi A

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