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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. Lean rats gained more body weight than obese ones from a high-fibre diet.
    The British journal of nutrition (Br J Nutr ) Vol: 114 Issue 8 Pages: 1188-94
    Pub: 2015 Oct 28 Epub: 2015 Aug 28
    • Li S
    • Zhang C
    • Gu Y
    • Chen L
    • Ou S
    • Wang Y
    • Peng X

  2. Sodium butyrate attenuates high-fat diet-induced steatohepatitis in mice by improving gut microbiota and gastrointestinal barrier
    World Journal of Gastroenterology (World J Gastroenterol ) Vol: 23 Issue 1 Pages: 60-75
    Pub: 2017 Jan 7 Epub: 2017 Jan 7
    • Zhou D
    • Pan Q
    • Xin FZ
    • Zhang RN
    • He CX
    • Chen GY
    • Liu C
    • Chen YW
    • Fan JG

  3. High-level dietary fibre up-regulates colonic fermentation and relative abundance of saccharolytic bacteria within the human faecal microbiota in vitro.
    European journal of nutrition (Eur J Nutr ) Vol: 51 Issue 6 Pages: 693-705
    Pub: 2012 Sep Epub: 2011 Sep 28
    • Shen Q
    • Zhao L
    • Tuohy KM

  4. Dynamic alterations in the gut microbiota and metabolome during the development of methionine-choline-deficient diet-induced nonalcoholic steatohepatitis.
    World journal of gastroenterology (World J Gastroenterol ) Vol: 24 Issue 23 Pages: 2468-2481
    Pub: 2018 Jun 21 Epub:
    • Ye JZ
    • Li YT
    • Wu WR
    • Shi D
    • Fang DQ
    • Yang LY
    • Bian XY
    • Wu JJ
    • Wang Q
    • Jiang XW
    • Peng CG
    • Ye WC
    • Xia PC
    • Li LJ

  5. Effect of probiotic yoghurt on animal-based diet-induced change in gut microbiota: an open, randomised, parallel-group study.
    Beneficial microbes (Benef Microbes ) Vol: 7 Issue 4 Pages: 473-84
    Pub: 2016 Sep Epub: 2016 May 2
    • Odamaki T
    • Kato K
    • Sugahara H
    • Xiao JZ
    • Abe F
    • Benno Y

  6. The effect of sucrose or starch-based diet on short-chain fatty acids and faecal microflora in rats.
    Journal of applied microbiology (J Appl Microbiol ) Vol: 86 Issue 2 Pages: 245-50
    Pub: 1999 Feb Epub:
    • Cresci A
    • Orpianesi C
    • Silvi S
    • Mastrandrea V
    • Dolara P

  7. Influence of different dietary regimens upon the composition of the human fecal flora.
    Progress in food & nutrition science (Prog Food Nutr Sci ) Vol: 7 Issue 3-4 Pages: 127-31
    Pub: 1983 Epub:
    • Noack-Loebel C
    • Küster E
    • Rusch V
    • Zimmermann K

  8. The gut microbiome of kittens is affected by dietary protein:carbohydrate ratio and associated with blood metabolite and hormone concentrations.
    The British journal of nutrition (Br J Nutr ) Vol: 109 Issue 9 Pages: 1637-46
    Pub: 2013 May Epub: 2012 Aug 31
    • Hooda S
    • Vester Boler BM
    • Kerr KR
    • Dowd SE
    • Swanson KS

  9. The type and quantity of dietary fat and carbohydrate alter faecal microbiome and short-chain fatty acid excretion in a metabolic syndrome `at-risk` population.
    International journal of obesity (2005) (Int J Obes (Lond) ) Vol: 37 Issue 2 Pages: 216-23
    Pub: 2013 Feb Epub: 2012 Mar 13
    • Fava F
    • Gitau R
    • Griffin BA
    • Gibson GR
    • Tuohy KM
    • Lovegrove JA

  10. Gut Microbiome-Induced Shift of Acetate to Butyrate Positively Manages Dysbiosis in High Fat Diet.
    Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 62 Issue 3 Pages:
    Pub: 2018 Feb Epub: 2018 Jan 8
    • Si X
    • Shang W
    • Zhou Z
    • Strappe P
    • Wang B
    • Bird A
    • Blanchard C

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