top of page

    Quellenverzeichnis  

Bäckhed, F. et al.: Host-bacterial mutualism in the human intestine. Science 2005, 307:1915-1920.

Bäckhed, F. et al.: Mechanismus underlying the resistance to diet-induced obesity in germ-free mice. PNAS 2007, 105:979-984.

Bäckhed, F. et al.: The gut microbiota as an environmental factor that regulates fat storage. Proc Natl Acad Sci USA 2004, 101:15718-15723.

Badman, M. K., Flier, J. S.: The gut and energy balance: visceral allies in the obesity wars. Science 2005, 307:1909-1914.

Bajzer, M., Seeley, R. J.: Physiology: obesity and gut flora. Nature 2006, 444:1009-1010.

Bergman, E. N.: Energy contributions of volatile fatty acids from the gastrointestinal tract in various species. Physiol Rev 1990, 70:567-590.

Cotillard, A. et al.: Dietary intervention impact on gut microbial gene richness. Nature 2013, 500(7464):585-8.

De Filippo, C. et al.: Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rural Africa. Proc Natl Acad Sci USA 2010, 107(33):14691-6.

Desai MS. et al.: A Dietary Fiber-Deprived Gut Microbiota Degrades the Colonic Mucus Barrier and Enhances PathogenSusceptibility. Cell 2016, 167(5):1339-1353.​

De Souza, A. Z.,  et al.: Oral supplementation with L-glutamine alters gut microbiota of obese and overweight adults: A pilot study. Nutrition, 31(6):884-9.

Dibaise, S. H. et al.: Gut Microbiota and Its Possible Relationship With Obesity. Mayo Clinic Proceedings 2008, 83:460-469.

Duncan, S. H. et al.: Reduced dietary intake of carbohydrates by obese subjects results in decreased concentrations of butyrate and butyrate-producing bacteria in feces. Applied and Environmental Microbiology 2007, 73:1073-1078.

Le Chatelier, E., Nielsen, T., Qin, J., et al.: Richness of human gut microbiome correlates with metabolic markers. Nature 2013, 500(7464):541-6.

Ley, R. E. et al.: Microbial ecology - human gut microbes associated with obesity. Nature 2006, 444:1022–1023.

Mahowald, M. A. et al.: Characterizing a model human gut microbiota composed of members of its two dominant bacterial phyla. PNAS 2009, 106:5859-5864.

Mariat, D. et al.: The Firmicutes/Bacteroidetes ratio of the human microbiota changes with age. BMC Microbiology 2009, 9:123.

Mathur, R., Barlow, G. M.: Obesity and the microbiome. Expert Rev Gastroenterol Hepatol 2015, 9(8):1087-99.

Musso, G. et al.: Interactions Between Gut Microbiota and Host Metabolism Predisposing to Obesity and Diabetes. The Annual Review of Medicine 2011, 62:361-380.

Qin J. et al.: A human gut microbial gene catalogue established by metagenomic sequencing. Nature 2010, 464:59-67.

Ridaura, V. K. et al.: Gut Microbiota from Twins Discordant for Obesity Modulate Metabolism in Mice. Science 2013, 341(6150).

Sandoval, D. A., Seeley, R. J.: The Microbes Made Me Eat It. Science 2010, 328: 179-180.

Sari Rahat-Rozenbloom et al.: Evidence for Greater Production of Colonic Short Chain Fatty Acids in Overweight than Lean Humans. Int J Obes (Lond) 2014, 38(12):1525–1531.

Turnbaugh, P. J. et al: An obesity-associated gut microbiome with increased capacity for energy harvest. Nature 2006, 444:1027-1031.

Ussar, S. et al.: Interactions between Gut Microbiota, Host Genetics and Diet Modulate the Predisposition to Obesity and Metabolic Syndrome. Cell Metabolism 2015, 22(3):516 – 530.

Vijay-Kumar, M. et al.: Metabolic Syndrome and Altered Gut Microbiota in Mice Lacking Toll-Like Receptor 5. Sience 2010, 328:228-231.

Walker, A. W. et al.: pH and peptide supply can radically alter bacterial populations and short-chain fatty acid ratios within microbial communities from the human colon. Applied and Environmental Microbiology 2005, 7:3692-2700.

Walker, A. W., Parkhill J.: Fighting Obesity with Bacteria. Science 2013, 341 (6150): 1069-1070.

Wu, G. D. et al.: Linking long-term dietary patterns with gut microbial enterotypes. Science 2011, 334(6052):105-8.

Zuo H-J. et al.: Gut bacteria alteration in obese people and its relationship with gene polymorphism. World J Gastroenterol 2011, 17(8): 1076-1081.

*Hinweis*
Bitte beachten Sie, dass unser CoGAP MetaCheck-Konzept die Genetik als weiteren Baustein im Rahmen eines herkömmlichen Abnehmkonzeptes einbezieht. Der Zusammenhang zwischen genetischer Veranlagung und Gewichtsveränderung ist allerdings bislang wissenschaftlich nicht hinreichend gesichert. Wir sind jedoch davon überzeugt, Ihnen auf Basis der Gen-Diät CoGAP MetaCheck ein persönlich zugeschnittenes und erfolgreiches Ernährungs- und Trainingskonzept bieten zu können.

bottom of page