This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alcock J., Maley C.C., Aktipis C.A.: Is eating behavior manipulated by the gastrointestinal microbiota? Evolutionary pressures and potential mechanisms. Bioessays, 2014; 36: 940–949AlcockJ.MaleyC.C.AktipisC.A.Is eating behavior manipulated by the gastrointestinal microbiota? Evolutionary pressures and potential mechanismsBioessays20143694094910.1002/bies.201400071427021325103109Search in Google Scholar
Armougom F., Henry M., Vialettes B., Raccah D., Raoult D.: Monitoring bacterial community of human gut microbiota reveals an increase in Lactobacillus in obese patients and Methanogens in anorexic patients. PLoS One, 2009; 4: e7125ArmougomF.HenryM.VialettesB.RaccahD.RaoultD.Monitoring bacterial community of human gut microbiota reveals an increase in Lactobacillus in obese patients and Methanogens in anorexic patientsPLoS One20094e712510.1371/journal.pone.0007125274290219774074Search in Google Scholar
Back-Brito G.N., Da Mota A.J., de Souza Bernardes L. Â., Takamune S.S., Prado E. de F., Cordás T.A., Balducci I., da Nobrega F.G., Koga-Ito C.Y.: Effects of eating disorders on oral fungal diversity. Oral Surg. Oral Med. Oral Pathol. Oral Radiol., 2012; 113: 512–517Back-BritoG.N.Da MotaA.J.de Souza BernardesL. Â.TakamuneS.S.PradoE. de F.CordásT.A.BalducciI.da NobregaF.G.Koga-ItoC.Y.Effects of eating disorders on oral fungal diversityOral Surg. Oral Med. Oral Pathol. Oral Radiol.201211351251710.1016/j.oooo.2011.10.00722668429Search in Google Scholar
Bern E.M., Woods E.R., Rodriguez L.: Gastrointestinal manifestations of eating disorders. J. Pediatr. Gastroenterol. Nutr., 2016; 63: e77–e85BernE.M.WoodsE.R.RodriguezL.Gastrointestinal manifestations of eating disordersJ. Pediatr. Gastroenterol. Nutr.201663e77e8510.1097/MPG.000000000000139427579693Search in Google Scholar
Borgo F., Riva A., Benetti A., Casiraghi M.C., Bertelli S., Garbossa S., Anselmetti S., Scarone S., Pontiroli A.E., Morace G., Borghi E.: Microbiota in anorexia nervosa: The triangle between bacterial species, metabolites and psychological tests. PLoS One, 2017; 12: e0179739BorgoF.RivaA.BenettiA.CasiraghiM.C.BertelliS.GarbossaS.AnselmettiS.ScaroneS.PontiroliA.E.MoraceG.BorghiE.Microbiota in anorexia nervosa: The triangle between bacterial species, metabolites and psychological testsPLoS One201712e017973910.1371/journal.pone.0179739547956428636668Search in Google Scholar
Bravo J.A., Forsythe P., Chew M.V., Escaravage E., Savignac H.M., Dinan T.G., Bienenstock J., Cryan J.F.: Ingestion of Lactobacillus strain regulates emotional behavior and central GABA receptor expression in a mouse via the vagus nerve. Proc. Natl. Acad. Sci. USA, 2011; 108: 16050–16055BravoJ.A.ForsytheP.ChewM.V.EscaravageE.SavignacH.M.DinanT.G.BienenstockJ.CryanJ.F.Ingestion of Lactobacillus strain regulates emotional behavior and central GABA receptor expression in a mouse via the vagus nerveProc. Natl. Acad. Sci. USA2011108160501605510.1073/pnas.1102999108317907321876150Search in Google Scholar
Breton J., Déchelotte P., Ribet D.: Intestinal microbiota and anorexia nervosa. Clin. Nutr. Exp., 2019; 28: 11–21BretonJ.DéchelotteP.RibetD.Intestinal microbiota and anorexia nervosaClin. Nutr. Exp.201928112110.1016/j.yclnex.2019.05.001Search in Google Scholar
Breton J., Legrand R., Akkermann K., Järv A., Harro J., Déchelotte P., Fetissov S.O.: Elevated plasma concentrations of bacterial ClpB protein in patients with eating disorders. Int. J. Eat. Disord., 2016; 49: 805–808BretonJ.LegrandR.AkkermannK.JärvA.HarroJ.DéchelotteP.FetissovS.O.Elevated plasma concentrations of bacterial ClpB protein in patients with eating disordersInt. J. Eat. Disord.20164980580810.1002/eat.2253127038326Search in Google Scholar
D’Agostino G., Diano S.: Alpha-melanocyte stimulating hormone: Production and degradation. J. Mol. Med., 2010; 88: 1195–1201D’AgostinoG.DianoS.Alpha-melanocyte stimulating hormone: Production and degradationJ. Mol. Med.2010881195120110.1007/s00109-010-0651-0393641320617297Search in Google Scholar
Dalton B., Bartholdy S., Robinson L., Solmi M., Ibrahim M.A.A., Breen G., Schmidt U., Himmerich H.: A meta-analysis of cytokine concentrations in eating disorders. J. Psychiatr. Res., 2018; 103: 252–264DaltonB.BartholdyS.RobinsonL.SolmiM.IbrahimM.A.A.BreenG.SchmidtU.HimmerichH.A meta-analysis of cytokine concentrations in eating disordersJ. Psychiatr. Res.201810325226410.1016/j.jpsychires.2018.06.00229906710Search in Google Scholar
Fetissov S.O.: Role of the gut microbiota in host appetite control: Bacterial growth to animal feeding behaviour. Nat. Rev. Endocrinol., 2017; 13: 11–25FetissovS.O.Role of the gut microbiota in host appetite control: Bacterial growth to animal feeding behaviourNat. Rev. Endocrinol.201713112510.1038/nrendo.2016.15027616451Search in Google Scholar
Gauthier C., Hassler C., Mattar L., Launay J.M., Callebert J., Steiger H., Melchior J.C., Falissard B., Berthoz S., Mourier-Soleillant V., Lang F., Delorme M., Pommereau X., Gerardin P., Bioulac S., Bouvard M., Godart N.: Symptoms of depression and anxiety in anorexia nervosa: Links with plasma tryptophan and serotonin metabolism. Psychoneuroendocrinology, 2014; 39: 170–178GauthierC.HasslerC.MattarL.LaunayJ.M.CallebertJ.SteigerH.MelchiorJ.C.FalissardB.BerthozS.Mourier-SoleillantV.LangF.DelormeM.PommereauX.GerardinP.BioulacS.BouvardM.GodartN.Symptoms of depression and anxiety in anorexia nervosa: Links with plasma tryptophan and serotonin metabolismPsychoneuroendocrinology20143917017810.1016/j.psyneuen.2013.09.00924135616Search in Google Scholar
Ghoshal U., Shukla R., Srivastava D., Ghoshal U.C.: Irritable bowel syndrome, particularly the constipation-predominant form, involves an increase in Methanobrevibacter smithii, which is associated with higher methane production. Gut Liver, 2016; 10: 932–938GhoshalU.ShuklaR.SrivastavaD.GhoshalU.C.Irritable bowel syndrome, particularly the constipation-predominant form, involves an increase in Methanobrevibacter smithii, which is associated with higher methane productionGut Liver20161093293810.5009/gnl15588508793327458176Search in Google Scholar
Glenny E.M., Bulik-Sullivan E.C., Tang Q., Bulik C.M., Carroll I.M.: Eating disorders and the intestinal microbiota: Mechanisms of energy homeostasis and behavioral influence. Curr. Psychiatry Rep., 2017; 19: 51GlennyE.M.Bulik-SullivanE.C.TangQ.BulikC.M.CarrollI.M.Eating disorders and the intestinal microbiota: Mechanisms of energy homeostasis and behavioral influenceCurr. Psychiatry Rep.2017195110.1007/s11920-017-0797-3588138228676966Search in Google Scholar
Gouba N., Raoult D., Drancourt M.: Gut microeukaryotes during anorexia nervosa: A case report. BMC Res. Notes, 2014; 7: 33GoubaN.RaoultD.DrancourtM.Gut microeukaryotes during anorexia nervosa: A case reportBMC Res. Notes201473310.1186/1756-0500-7-33389577724418238Search in Google Scholar
Guinane C.M., Cotter P.D.: Role of the gut microbiota in health and chronic gastrointestinal disease: Understanding a hidden metabolic organ. Therap. Adv. Gastroenterol., 2013; 6: 295–308GuinaneC.M.CotterP.D.Role of the gut microbiota in health and chronic gastrointestinal disease: Understanding a hidden metabolic organTherap. Adv. Gastroenterol.2013629530810.1177/1756283X13482996366747323814609Search in Google Scholar
Gulas E., Wysiadecki G., Strzelecki D., Gawlik-Kotelnicka O., Polguj M.: Can microbiology affect psychiatry? A link between gut microbiota and psychiatric disorders. Psychiatr. Pol., 2018; 52: 1023–1039GulasE.WysiadeckiG.StrzeleckiD.Gawlik-KotelnickaO.PolgujM.Can microbiology affect psychiatry? A link between gut microbiota and psychiatric disordersPsychiatr. Pol.2018521023103910.12740/PP/OnlineFirst/8110330659564Search in Google Scholar
Hanachi M., Manichanh C., Schoenenberger A., Pascal V., Levenez F., Cournède N., Doré J., Melchior J.C.: Altered host-gut microbes symbiosis in severely malnourished anorexia nervosa (AN) patients undergoing enteral nutrition: An explicative factor of functional intestinal disorders? Clin. Nutr., 2019; 38: 2304–2310HanachiM.ManichanhC.SchoenenbergerA.PascalV.LevenezF.CournèdeN.DoréJ.MelchiorJ.C.Altered host-gut microbes symbiosis in severely malnourished anorexia nervosa (AN) patients undergoing enteral nutrition: An explicative factor of functional intestinal disorders?Clin. Nutr.2019382304231010.1016/j.clnu.2018.10.00430527539Search in Google Scholar
Heruc G.A., Little T.J., Kohn M., Madden S., Clarke S., Horowitz M., Feinle-Bisset C.: Appetite perceptions, gastrointestinal symptoms, ghrelin, peptide YY and state anxiety are disturbed in adolescent females with anorexia nervosa and only partially restored with short-term refeeding. Nutrients, 2018; 11: 59HerucG.A.LittleT.J.KohnM.MaddenS.ClarkeS.HorowitzM.Feinle-BissetC.Appetite perceptions, gastrointestinal symptoms, ghrelin, peptide YY and state anxiety are disturbed in adolescent females with anorexia nervosa and only partially restored with short-term refeedingNutrients2018115910.3390/nu11010059635679830597915Search in Google Scholar
Hetterich L., Mack I., Giel K.E., Zipfel S., Stengel A.: An update on gastrointestinal disturbances in eating disorders. Mol. Cell. Endocrinol., 2019; 497: 110318HetterichL.MackI.GielK.E.ZipfelS.StengelA.An update on gastrointestinal disturbances in eating disordersMol. Cell. Endocrinol.201949711031810.1016/j.mce.2018.10.01630359760Search in Google Scholar
Jagielska G., Kacperska I.: Przebieg choroby, współchorobowość i czynniki rokownicze w jadłowstręcie psychicznym. Psychiatr. Pol., 2017; 51: 205–218JagielskaG.KacperskaI.Przebieg choroby, współchorobowość i czynniki rokownicze w jadłowstręcie psychicznymPsychiatr. Pol.20175120521810.12740/PP/6458028581532Search in Google Scholar
Johnson K.V.: Gut microbiome composition and diversity are related to human personality traits. Human Microb. J., 2020; 15: 1000693JohnsonK.V.Gut microbiome composition and diversity are related to human personality traitsHuman Microb. J.202015100069310.1016/j.humic.2019.100069833601234435164Search in Google Scholar
Johnson K.V., Foster K.R.: Why does the microbiome affect behaviour? Nat. Rev. Microbiol., 2018; 16: 647–655JohnsonK.V.FosterK.R.Why does the microbiome affect behaviour?Nat. Rev. Microbiol.20181664765510.1038/s41579-018-0014-329691482Search in Google Scholar
Kim G., Deepinder F., Morales W., Hwang L., Weitsman S., Chang, C., Gunsalus R., Pimentel M.: Methanobrevibacter smithii is the predominant methanogen in patients with constipation-predominant IBS and methane on breath. Dig. Dis. Sci., 2012; 57: 3213–3218KimG.DeepinderF.MoralesW.HwangL.WeitsmanS.ChangC.GunsalusR.PimentelM.Methanobrevibacter smithii is the predominant methanogen in patients with constipation-predominant IBS and methane on breathDig. Dis. Sci.2012573213321810.1007/s10620-012-2197-122573345Search in Google Scholar
Kleiman S.C., Watson H.J., Bulik-Sullivan E.C., Huh E.Y., Tarantino L.M., Bulik C.M., Carroll I.M.: The intestinal microbiota in acute anorexia nervosa and during renourishment: Relationship to depression, anxiety, and eating disorder psychopathology. Psychosom. Med., 2015; 77: 969–981KleimanS.C.WatsonH.J.Bulik-SullivanE.C.HuhE.Y.TarantinoL.M.BulikC.M.CarrollI.M.The intestinal microbiota in acute anorexia nervosa and during renourishment: Relationship to depression, anxiety, and eating disorder psychopathologyPsychosom. Med.20157796998110.1097/PSY.0000000000000247464336126428446Search in Google Scholar
Libertucci J., Young V.B.: The role of the microbiota in infectious diseases. Nat. Microbiol., 2019; 4: 35–45LibertucciJ.YoungV.B.The role of the microbiota in infectious diseasesNat. Microbiol.20194354510.1038/s41564-018-0278-430546094Search in Google Scholar
Lippert K., Kedenko L., Antonielli L., Kedenko I., Gemeier C., Leitner M., Kautzky-Willer A., Paulweber B., Hackl E.: Gut microbiota dysbiosis associated with glucose metabolism disorders and the metabolic syndrome in older adults. Benef. Microbes, 2017; 8: 545–556LippertK.KedenkoL.AntonielliL.KedenkoI.GemeierC.LeitnerM.Kautzky-WillerA.PaulweberB.HacklE.Gut microbiota dysbiosis associated with glucose metabolism disorders and the metabolic syndrome in older adultsBenef. Microbes2017854555610.3920/BM2016.018428701081Search in Google Scholar
Ma N., Tian Y., Wu Y., Ma X.: Contributions of the interaction between dietary protein and gut microbiota to intestinal health. Curr. Protein Pept. Sci., 2017; 18: 795–808MaN.TianY.WuY.MaX.Contributions of the interaction between dietary protein and gut microbiota to intestinal healthCurr. Protein Pept. Sci.20171879580810.2174/138920371866617021615350528215168Search in Google Scholar
Mack I., Cuntz U., Grämer C., Niedermaier S., Pohl C., Schwiertz A., Zimmermann K., Zipfel S., Enck P., Penders J.: Weight gain in anorexia nervosa does not ameliorate the faecal microbiota, branched chain fatty acid profiles, and gastrointestinal complaints. Sci. Rep., 2016; 6: 26752MackI.CuntzU.GrämerC.NiedermaierS.PohlC.SchwiertzA.ZimmermannK.ZipfelS.EnckP.PendersJ.Weight gain in anorexia nervosa does not ameliorate the faecal microbiota, branched chain fatty acid profiles, and gastrointestinal complaintsSci. Rep.201662675210.1038/srep26752488262127229737Search in Google Scholar
Mack I., Penders J., Cook J., Dugmore J., Mazurak N., Enck P.: Is the impact of starvation on the gut microbiota specific or unspecific to anorexia nervosa? A narrative review based on a systematic literature search. Curr. Neuropharmacol., 2018; 16: 1131–1149MackI.PendersJ.CookJ.DugmoreJ.MazurakN.EnckP.Is the impact of starvation on the gut microbiota specific or unspecific to anorexia nervosa? A narrative review based on a systematic literature searchCurr. Neuropharmacol.2018161131114910.2174/1570159X16666180118101354618775529345582Search in Google Scholar
Mehler P.S., Brown C.: Anorexia nervosa – medical complications. J. Eat. Disord., 2015; 3: 11MehlerP.S.BrownC.Anorexia nervosa – medical complicationsJ. Eat. Disord.201531110.1186/s40337-015-0040-8438136125834735Search in Google Scholar
Million M., Angelakis E., Maraninchi M., Henry M., Giorgi R., Valero R., Vialettes B., Raoult D.: Correlation between body mass index and gut concentrations of Lactobacillus reuteri, Bifidobacterium animalis, Methanobrevibacter smithii and Escherichia coli. Int. J. Obes., 2013; 37: 1460–1466MillionM.AngelakisE.MaraninchiM.HenryM.GiorgiR.ValeroR.VialettesB.RaoultD.Correlation between body mass index and gut concentrations of Lactobacillus reuteri, Bifidobacterium animalis, Methanobrevibacter smithii and Escherichia coliInt. J. Obes.2013371460146610.1038/ijo.2013.20382603123459324Search in Google Scholar
Misra S., Mohanty D.: Psychobiotics: A new approach for treating mental illness? Crit. Rev. Food Sci. Nutr., 2019; 59: 1230–1236MisraS.MohantyD.Psychobiotics: A new approach for treating mental illness?Crit. Rev. Food Sci. Nutr.2019591230123610.1080/10408398.2017.139986029190117Search in Google Scholar
Morita C., Tsuji H., Hata T., Gondo M., Takakura S., Kawai K., Yoshihara K., Ogata K., Nomoto K., Miyazaki K., Sudo N.: Gut dysbiosis in patients with anorexia nervosa. PLoS One., 2015; 10: e0145274MoritaC.TsujiH.HataT.GondoM.TakakuraS.KawaiK.YoshiharaK.OgataK.NomotoK.MiyazakiK.SudoN.Gut dysbiosis in patients with anorexia nervosaPLoS One.201510e014527410.1371/journal.pone.0145274468763126682545Search in Google Scholar
Mörkl S., Lackner S., Müller W., Gorkiewicz G., Kashofer K., Oberascher A., Painold A, Holl A., Holzer P., Meinitzer A., Mangge H., Holasek S.: Gut microbiota and body composition in anorexia nervosa inpatients in comparison to athletes, overweight, obese, and normal weight controls. Int. J. Eat. Disord., 2017; 50: 1421–1431MörklS.LacknerS.MüllerW.GorkiewiczG.KashoferK.OberascherA.PainoldAHollA.HolzerP.MeinitzerA.ManggeH.HolasekS.Gut microbiota and body composition in anorexia nervosa inpatients in comparison to athletes, overweight, obese, and normal weight controlsInt. J. Eat. Disord.2017501421143110.1002/eat.2280129131365Search in Google Scholar
Murphy E.A., Velazquez K.T., Herbert K.M.: Influence of high-fat diet on gut microbiota: A driving force for chronic disease risk. Curr. Opin. Clin. Nutr. Metab. Care, 2015; 18: 515–520MurphyE.A.VelazquezK.T.HerbertK.M.Influence of high-fat diet on gut microbiota: A driving force for chronic disease riskCurr. Opin. Clin. Nutr. Metab. Care20151851552010.1097/MCO.0000000000000209457815226154278Search in Google Scholar
Nishida A., Inoue R., Inatomi O., Bamba S., Naito Y., Andoh A.: Gut microbiota in the pathogenesis of inflammatory bowel disease. Clin. J. Gastroenterol., 2018; 11: 1–10NishidaA.InoueR.InatomiO.BambaS.NaitoY.AndohA.Gut microbiota in the pathogenesis of inflammatory bowel diseaseClin. J. Gastroenterol.20181111010.1007/s12328-017-0813-529285689Search in Google Scholar
Perkins S.J., Keville S., Schmidt U., Chalder T.: Eating disorders and irritable bowel syndrome: Is there a link? J. Psychosom. Res., 2005; 59: 57–64PerkinsS.J.KevilleS.SchmidtU.ChalderT.Eating disorders and irritable bowel syndrome: Is there a link?J. Psychosom. Res.200559576410.1016/j.jpsychores.2004.04.37516185999Search in Google Scholar
Qin J., Li R., Raes J., Arumugam M., Burgdorf K.S., Manichanh C., Nielsen T., Pons N., Levenez N., Yamada T., Mende D.R., Li J., Xu J., Li S., Li D.: A human gut microbial gene catalogue established by metagenomic sequencing. Nature, 2010; 464: 59–65QinJ.LiR.RaesJ.ArumugamM.BurgdorfK.S.ManichanhC.NielsenT.PonsN.LevenezN.YamadaT.MendeD.R.LiJ.XuJ.LiS.LiD.A human gut microbial gene catalogue established by metagenomic sequencingNature2010464596510.1038/nature08821377980320203603Search in Google Scholar
Roubalová R., Procházková P., Papežová H., Smitka K., Bilej M., Tlaskalová-Hogenová H.: Anorexia nervosa: Gut microbiota-immune-brain interactions. Clin. Nutr., 2020; 39: 676–684RoubalováR.ProcházkováP.PapežováH.SmitkaK.BilejM.Tlaskalová-HogenováH.Anorexia nervosa: Gut microbiota-immune-brain interactionsClin. Nutr.20203967668410.1016/j.clnu.2019.03.02330952533Search in Google Scholar
Russell W.R., Gratz S.W., Duncan S.H., Holtrop G., Ince J., Scobbie L., Duncan G., Johnstone A.M., Lobley G.E., Wallace R.J., Duthie G.G., Flint H.J.: High-protein, reduced-carbohydrate weight-loss diets promote metabolite profiles likely to be detrimental to colonic health. Am. J. Clin. Nutr., 2011; 93: 1062–1072RussellW.R.GratzS.W.DuncanS.H.HoltropG.InceJ.ScobbieL.DuncanG.JohnstoneA.M.LobleyG.E.WallaceR.J.DuthieG.G.FlintH.J.High-protein, reduced-carbohydrate weight-loss diets promote metabolite profiles likely to be detrimental to colonic healthAm. J. Clin. Nutr.2011931062107210.3945/ajcn.110.00218821389180Search in Google Scholar
Ruusunen A., Rocks T., Jacka F., Loughman A.: The gut microbiome in anorexia nervosa: Relevance for nutritional rehabilitation. Psychopharmacology, 2019; 236: 1545–1558RuusunenA.RocksT.JackaF.LoughmanA.The gut microbiome in anorexia nervosa: Relevance for nutritional rehabilitationPsychopharmacology20192361545155810.1007/s00213-018-5159-2659894330612189Search in Google Scholar
Seitz J., Belheouane M., Schulz N., Dempfle A., Baines J.F., Herpertz-Dahlmann B.: The impact of starvation on the microbiome and gut-brain interaction in anorexia nervosa. Front. Endocrinol., 2019; 10: 41SeitzJ.BelheouaneM.SchulzN.DempfleA.BainesJ.F.Herpertz-DahlmannB.The impact of starvation on the microbiome and gut-brain interaction in anorexia nervosaFront. Endocrinol.2019104110.3389/fendo.2019.00041637925030809191Search in Google Scholar
Singh R.K., Chang H.W., Yan D., Lee K.M., Ucmak D., Wong K., Abrouk M., Farahnik B., Nakamura M., Zhu T.H., Bhutani T., Liao W.: Influence of diet on the gut microbiome and implications for human health. J. Transl. Med., 2017; 15: 73SinghR.K.ChangH.W.YanD.LeeK.M.UcmakD.WongK.AbroukM.FarahnikB.NakamuraM.ZhuT.H.BhutaniT.LiaoW.Influence of diet on the gut microbiome and implications for human healthJ. Transl. Med.2017157310.1186/s12967-017-1175-y538502528388917Search in Google Scholar
Strandwitz P., Kim K.H., Terekhova D., Liu J.K., Sharma A., Levering J., McDonald D., Dietrich D., Ramadhar T.R., Lekbua A., Mroue N., Liston C., Stewart E.J., Dubin M.J, Zengler K. i wsp.: GABA-modulating bacteria of the human gut microbiota. Nat. Microbiol., 2019; 4: 396–403StrandwitzP.KimK.H.TerekhovaD.LiuJ.K.SharmaA.LeveringJ.McDonaldD.DietrichD.RamadharT.R.LekbuaA.MroueN.ListonC.StewartE.J.DubinM.JZenglerK.GABA-modulating bacteria of the human gut microbiotaNat. Microbiol.2019439640310.1038/s41564-018-0307-3638412730531975Search in Google Scholar
Tennoune N., Chan P., Breton J., Legrand R., Chabane Y.N., Akkermann K., Järv A., Ouelaa W., Takagi K., Ghouzali I., Francois M., Lucas N., Bole-Feysot C., Pestel-Caron M., i wsp.: Bacterial ClpB heat-shock protein, an antigen-mimetic of the anorexigenic peptide α-MSH, at the origin of eating disorders. Transl. Psychiatry, 2014; 4: e458TennouneN.ChanP.BretonJ.LegrandR.ChabaneY.N.AkkermannK.JärvA.OuelaaW.TakagiK.GhouzaliI.FrancoisM.LucasN.Bole-FeysotC.Pestel-CaronM.Bacterial ClpB heat-shock protein, an antigen-mimetic of the anorexigenic peptide α-MSH, at the origin of eating disordersTransl. Psychiatry20144e45810.1038/tp.2014.98435052725290265Search in Google Scholar
Westmoreland P., Krantz M.J., Mehler P.S.: Medical complications of anorexia nervosa and bulimia. Am. J. Med., 2016; 129: 30–37WestmorelandP.KrantzM.J.MehlerP.S.Medical complications of anorexia nervosa and bulimiaAm. J. Med.2016129303710.1016/j.amjmed.2015.06.03126169883Search in Google Scholar
Yang B., Wei J., Ju P., Chen J.: Effects of regulating intestinal microbiota on anxiety symptoms: A systematic review. Gen. Psychiatr., 2019; 32: e100056YangB.WeiJ.JuP.ChenJ.Effects of regulating intestinal microbiota on anxiety symptoms: A systematic reviewGen. Psychiatr.201932e10005610.1136/gpsych-2019-100056655144431179435Search in Google Scholar
Zmora N., Suez J., Elinav E.: You are what you eat: Diet, health and the gut microbiota. Nat. Rev. Gastroenterol. Hepatol., 2018; 16: 35–56ZmoraN.SuezJ.ElinavE.You are what you eat: Diet, health and the gut microbiotaNat. Rev. Gastroenterol. Hepatol.201816355610.1038/s41575-018-0061-230262901Search in Google Scholar