This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Arora T, Sharma R, Frost G. 2011. Propionate. Anti-obesity and satiety factor? Appetite. 56:511–515.AroraTSharmaRFrostG.2011Propionate. Anti-obesity and satiety factor?5651151510.1016/j.appet.2011.01.01621255628Search in Google Scholar
Backhed F, Ding H, Wang T, Hooper LV, Koh GY, Nagy A, Semenkovich CF, Gordon JI. 2004. The gut microbiota as an environmental factor that regulates fat storage. Proc Natl Acad Sci. 10:15718–15723.BackhedFDingHWangTHooperLVKohGYNagyASemenkovichCFGordonJI.2004The gut microbiota as an environmental factor that regulates fat storage10157181572310.1073/pnas.040707610152421915505215Search in Google Scholar
Barczynska R, Jurgoński A, Slizewska K, Juśkiewicz J, Kapusniak J. 2017. Effects of potato dextrin on the composition and metabolism of the gut microbiota in rats fed standard and high-fat diets. J Funct Foods. 34:398–407.BarczynskaRJurgońskiASlizewskaKJuśkiewiczJKapusniakJ.2017Effects of potato dextrin on the composition and metabolism of the gut microbiota in rats fed standard and high-fat diets3439840710.1016/j.jff.2017.05.023Search in Google Scholar
Blaut M, Clavel T. 2007. Metabolic diversity of the intestinal microbiota: implications for health and disease. J Nutr. 137:751–755.BlautMClavelT.2007Metabolic diversity of the intestinal microbiota: implications for health and disease13775175510.1093/jn/137.3.751S17311972Search in Google Scholar
Bouter K, van Raalte DH, Groen AK, Nieuwdorp M. 2018. Role of the gut microbiome in the pathogenesis of obesity and obesityrelated metabolic dysfunction. Gastroenterol. 152(7):1671–1678.BouterKvan RaalteDHGroenAKNieuwdorpM.2018Role of the gut microbiome in the pathogenesis of obesity and obesityrelated metabolic dysfunction152(7):16711678Search in Google Scholar
Canfora EE, Jocken JW, Blaak EE. 2015. Short-chain fatty acids in control of body weight and insulin sensitivity. Nat Rev Endocrinol. 11(10):577–591.CanforaEEJockenJWBlaakEE.2015Short-chain fatty acids in control of body weight and insulin sensitivity11(10):57759110.1038/nrendo.2015.12826260141Search in Google Scholar
Cani PD, Bibiloni R, Knauf C, Waget A, Neyrinck AM, Delzenne NM, Burcelin R. 2008. Changes in gut microbiota control metabolic endotoxemia-induced inflammation in high-fat diet-induced obesity and diabetes in mice. Diabetes. 57:1470–1481.CaniPDBibiloniRKnaufCWagetANeyrinckAMDelzenneNMBurcelinR.2008Changes in gut microbiota control metabolic endotoxemia-induced inflammation in high-fat diet-induced obesity and diabetes in mice571470148110.2337/db07-140318305141Search in Google Scholar
Cani PD, Possemiers S, Van de WT, Guiot Y, Everard A, Rottier O, Geurts L, Naslain D, Neyrinck AM, Lambert DM, et al. 2009. Changes in gut microbiota control inflammation in obese mice through a mechanism involving GLP-2-driven improvement of gut permeability. Gut. 58:1091–1103.CaniPDPossemiersSVan deWTGuiotYEverardARottierOGeurtsLNaslainDNeyrinckAMLambertDM2009Changes in gut microbiota control inflammation in obese mice through a mechanism involving GLP-2-driven improvement of gut permeability581091110310.1136/gut.2008.165886270283119240062Search in Google Scholar
Cole TJ, Lobstein T. 2012. Extended international (IOTF) body mass index cut-offs for thinness, overweight and obesity. Pediatr Obes. 7(4):284–294.ColeTJLobsteinT.2012Extended international (IOTF) body mass index cut-offs for thinness, overweight and obesity7(4):28429410.1111/j.2047-6310.2012.00064.x22715120Search in Google Scholar
De Filippo C, Cavalieri D, Di Paola M, Ramazzotti M, Poullet JB, Massart S, Collini S, Pieraccini G, Lionetti P. 2010. Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rual Africa. Proc Natl Acad Sci. 107:14694–14696.De FilippoCCavalieriDDi PaolaMRamazzottiMPoulletJBMassartSColliniSPieracciniGLionettiP.2010Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rual Africa107146941469610.1073/pnas.1005963107293042620679230Search in Google Scholar
Diamant M, Blaak EE, de Vos WM. 2011. Do nutrient-gut-microbiota interaction play a role in human obesity, insulin resistance and type 2 diabetes? Obes Rev. 12:272–281.DiamantMBlaakEEde VosWM.2011Do nutrient-gut-microbiota interaction play a role in human obesity, insulin resistance and type 2 diabetes?1227228110.1111/j.1467-789X.2010.00797.x20804522Search in Google Scholar
Everard A, Lazarevic V, Derrien M, Girard M, Muccioli GM, Neyrinck AM, Possemiers S, Van Holle A, François P, de Vos WM, et al. 2011. Responses of gut microbiota and glucose and lipid metabolism to prebiotics in genetic obese and diet-induced leptinresistant mice. Diabetes 60: 2775–2786.EverardALazarevicVDerrienMGirardMMuccioliGMNeyrinckAMPossemiersSVan HolleAFrançoisPde VosWM2011Responses of gut microbiota and glucose and lipid metabolism to prebiotics in genetic obese and diet-induced leptinresistant mice602775278610.2337/db11-0227Search in Google Scholar
Everard A, Cani PD. 2013. Diabetes, obesity and gut mikrobiota. Best Pract Res Clin Gastroenterol. 27:1–3.EverardACaniPD.2013Diabetes, obesity and gut mikrobiota271310.1016/j.bpg.2013.03.007Search in Google Scholar
Kimm SY, Glynn NW, Obarzanek E, Kriska AM, Daniels SR, Barton BA, Liu K. 2005. Relation between the changes in physical activity and body-mass index during adolescence: a multicentre longitudinal study. Lancet. 366(9482):301–307.KimmSYGlynnNWObarzanekEKriskaAMDanielsSRBartonBALiuK.2005Relation between the changes in physical activity and body-mass index during adolescence: a multicentre longitudinal study366(9482):30130710.1016/S0140-6736(05)66837-7Search in Google Scholar
Ley RE, Turnbaugh P, Klein S, Gordon JI. 2006. Human gut microbes associated with obesity. Nature. 444:1022–1023.LeyRETurnbaughPKleinSGordonJI.2006Human gut microbes associated with obesity4441022102310.1038/4441022aSearch in Google Scholar
Lin HV, Frassetto A, Kowalik EJ, Nawrocki AR, Lu MM, Kosinski JR, Hubert JA, Szeto D, Yao X, Forrest G, Marsh DJ. 2012. Butyrate and propionate protect against diet-induced obesity and regulate gut hormones via free fatty acid receptor 3-independent mechanisms. Plos ONE. 7:35240.LinHVFrassettoAKowalikEJNawrockiARLuMMKosinskiJRHubertJASzetoDYaoXForrestGMarshDJ.2012Butyrate and propionate protect against diet-induced obesity and regulate gut hormones via free fatty acid receptor 3-independent mechanisms73524010.1371/journal.pone.0035240Search in Google Scholar
Lin H, An Y, Hao F, Wang Y, Tang H. 2016. Correlations of fecal metabonomic and microbiomic changes induced by high-fat diet in the pre-obesity state. Sci Rep. 6:21618.LinHAnYHaoFWangYTangH.2016Correlations of fecal metabonomic and microbiomic changes induced by high-fat diet in the pre-obesity state6:2161810.1038/srep21618Search in Google Scholar
Lu Y, Fan C, Li P, Lu Y, Chang X, Qi K. 2016. Short chain fatty acids prevent high-fat-diet-induced obesity in mice by regulating G protein-coupled receptors and gut microbiota. Sci Rep. 6:37589.LuYFanCLiPLuYChangXQiK.2016Short chain fatty acids prevent high-fat-diet-induced obesity in mice by regulating G protein-coupled receptors and gut microbiota63758910.1038/srep37589Search in Google Scholar
Maziak W, Ward KD, Stockton MB. 2007. Childhood obesity: are we missing the big picture? Obesity Rev. 9(1):35–42.MaziakWWardKDStocktonMB.2007Childhood obesity: are we missing the big picture?9(1):354210.1111/j.1467-789X.2007.00376.xSearch in Google Scholar
Mondot S, Lepage P. 2016. The human gut microbiome and its dysfunctions through the meta-omics prism. Ann N Y Acad Sci. 1372:9–19.MondotSLepageP.2016The human gut microbiome and its dysfunctions through the meta-omics prism137291910.1111/nyas.13033Search in Google Scholar
Neish AS. 2002. The gut microflora and intestinal epithelial cells: a continuing dialogue. Microbes Infect. 4:309–317.NeishAS.2002The gut microflora and intestinal epithelial cells: a continuing dialogue430931710.1016/S1286-4579(02)01543-5Search in Google Scholar
Nie Y, Luo F, Lin Q. 2018. Dietary nutrition and gut microflora: A promising target for treating diseases. Trends Food Sci Technol. 75:72–80.NieYLuoFLinQ.2018Dietary nutrition and gut microflora: A promising target for treating diseases75728010.1016/j.tifs.2018.03.002Search in Google Scholar
Pekmez CT, Dragsted LO, Brahe LK. 2018. Gut microbiota alterations and dietary modulation in childhood malnutrition – The role of short chain fatty acids. Clin Nutr. 1–16.PekmezCTDragstedLOBraheLK.2018Gut microbiota alterations and dietary modulation in childhood malnutrition – The role of short chain fatty acids116Search in Google Scholar
Rabot S, Membrez M, Blancher F, Berger B, Moine D, Krause L, Bibiloni R, Bruneau A, Gérard P, Siddharth J, et al. 2016. High fat diet drives obesity regardless the composition of gut microbiota in mice. Sci Rep. 6:32484.RabotSMembrezMBlancherFBergerBMoineDKrauseLBibiloniRBruneauAGérardPSiddharthJ2016High fat diet drives obesity regardless the composition of gut microbiota in mice63248410.1038/srep32484Search in Google Scholar
Raza GS, Putaala H, Hibberd AA, Alhoniemi E, Tiihonen K, Mäkela KA, Herzig KH. 2017. Polydextrose changes the gut microbiome and attenuates fasting triglyceride and cholesterol levels in Western diet fed mice. Sci Rep. 7:5294.RazaGSPutaalaHHibberdAAAlhoniemiETiihonenKMäkelaKAHerzigKH.2017Polydextrose changes the gut microbiome and attenuates fasting triglyceride and cholesterol levels in Western diet fed mice7529410.1038/s41598-017-05259-3Search in Google Scholar
Report WHO. 2008. Waist circumference and waist-hip ratio report of a WHO expert consultation. Geneva (Switzerland): World Health Organization.Report WHO.2008Geneva (Switzerland)World Health OrganizationSearch in Google Scholar
Report WHO. 2009. Population-based prevention strategies for childhood obesity: report of a WHO forum and technical meeting. Geneva (Switzerland): World Health Organization.Report WHO.2009Geneva (Switzerland)World Health OrganizationSearch in Google Scholar
Sanz Y, Santacruz A, De Palma G. 2008. Insight into the roles of gut microbes in obesity. Interdiscip Perspect Infect Dis. 2008:1–9.SanzYSantacruzADe PalmaG.2008Insight into the roles of gut microbes in obesity20081910.1155/2008/829101Search in Google Scholar
Shen J, Obin MS, Zhao L. 2013. The gut microbiota, obesity and insulin resistance. Mol Aspects Med. 34:39–58.ShenJObinMSZhaoL.2013The gut microbiota, obesity and insulin resistance34395810.1016/j.mam.2012.11.001Search in Google Scholar
Stewart CS, Duncan SH, Cave DR. 2004. Oxalobacter formigenes and its role in oxalate metabolism in the human gut. FEMS Microbiol Lett. 230:1–7.StewartCSDuncanSHCaveDR.2004Oxalobacter formigenes and its role in oxalate metabolism in the human gut2301710.1016/S0378-1097(03)00864-4Search in Google Scholar
Turnbaugh PJ, Bäckhed F, Fulton L, Gordon JI. 2008. Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome. Cell Host Microbe. 3:213–223.TurnbaughPJBäckhedFFultonLGordonJI.2008Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome321322310.1016/j.chom.2008.02.015368778318407065Search in Google Scholar
Walker AW, Lawley TD. 2013. Therapeutic modulation of intestinal dysbiosis. Pharmacol Res. 69:75–86.WalkerAWLawleyTD.2013Therapeutic modulation of intestinal dysbiosis69758610.1016/j.phrs.2012.09.00823017673Search in Google Scholar