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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. Energy-dense diet triggers changes in gut microbiota, reorganization of gut-brain vagal communication and increases body fat accumulation
    Acta neurobiologiae experimentalis (Acta Neurobiol Exp (Wars) ) Vol: 77 Issue 1 Pages: 18-30
    Pub: 2017 Epub:
    • Vaughn AC
    • Cooper EM
    • DiLorenzo PM
    • O’Loughlin LJ
    • Konkel ME
    • Peters JH
    • Hajnal A
    • Sen T
    • Lee SH
    • de La Serre CB
    • Czaja K

  2. Isoflavones and functional foods alter the dominant intestinal microbiota in postmenopausal women.
    The Journal of nutrition (J Nutr ) Vol: 135 Issue 12 Pages: 2786-92
    Pub: 2005 Dec Epub:
    • Clavel T
    • Fallani M
    • Lepage P
    • Levenez F
    • Mathey J
    • Rochet V
    • Sérézat M
    • Sutren M
    • Henderson G
    • Bennetau-Pelissero C
    • Tondu F
    • Blaut M
    • Doré J
    • Coxam V

  3. Two Healthy Diets Modulate Gut Microbial Community Improving Insulin Sensitivity in a Human Obese Population.
    The Journal of clinical endocrinology and metabolism (J Clin Endocrinol Metab ) Vol: 101 Issue 1 Pages: 233-42
    Pub: 2016 Jan Epub: 2015 Oct 27
    • Haro C
    • Montes-Borrego M
    • Rangel-Zúñiga OA
    • Alcalá-Díaz JF
    • Gómez-Delgado F
    • Pérez-Martínez P
    • Delgado-Lista J
    • Quintana-Navarro GM
    • Tinahones FJ
    • Landa BB
    • López-Miranda J
    • Camargo A
    • Pérez-Jiménez F

  4. Short-term impact of a classical ketogenic diet on gut microbiota in GLUT1 Deficiency Syndrome: A 3-month prospective observational study.
    Clinical nutrition ESPEN (Clin Nutr ESPEN ) Vol: 17 Issue Pages: 33-37
    Pub: 2017 Feb Epub: 2016 Dec 18
    • Tagliabue A
    • Ferraris C
    • Uggeri F
    • Trentani C
    • Bertoli S
    • de Giorgis V
    • Veggiotti P
    • Elli M

  5. Association of Intestinal Microbiota with Metabolic Markers and Dietary Habits in Patients with Type 2 Diabetes.
    Digestion (Digestion ) Vol: 94 Issue 2 Pages: 66-72
    Pub: 2016 Epub: 2016 Aug 10
    • Yamaguchi Y
    • Adachi K
    • Sugiyama T
    • Shimozato A
    • Ebi M
    • Ogasawara N
    • Funaki Y
    • Goto C
    • Sasaki M
    • Kasugai K

  6. Modulation of gut microbiota dysbioses in type 2 diabetic patients by macrobiotic Ma-Pi 2 diet.
    The British journal of nutrition (Br J Nutr ) Vol: 116 Issue 1 Pages: 80-93
    Pub: 2016 Jul Epub: 2016 May 6
    • Candela M
    • Biagi E
    • Soverini M
    • Consolandi C
    • Quercia S
    • Severgnini M
    • Peano C
    • Turroni S
    • Rampelli S
    • Pozzilli P
    • Pianesi M
    • Fallucca F
    • Brigidi P

  7. Effects of Consuming Xylitol on Gut Microbiota and Lipid Metabolism in Mice.
    Nutrients (Nutrients ) Vol: 9 Issue 7 Pages:
    Pub: 2017 Jul 14 Epub: 2017 Jul 14
    • Uebanso T
    • Kano S
    • Yoshimoto A
    • Naito C
    • Shimohata T
    • Mawatari K
    • Takahashi A

  8. 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

  9. Temporal microbiota changes of high-protein diet intake in a rat model.
    Anaerobe (Anaerobe ) Vol: 47 Issue Pages: 218-225
    Pub: 2017 Oct Epub: 2017 Jun 17
    • Mu C
    • Yang Y
    • Luo Z
    • Zhu W

  10. 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

Full list available by paid subscriptions

For More information see this summary.