Rooks MG.Gut microbiota, metabolites and host immunity.Nat Rev Immunol2016;16:341-52 PMCID:PMC5541232

Power SE,Stanton C,Fitzgerald GF.Intestinal microbiota, diet and health.Br J Nutr2014;111:387-402

Fan Y.Gut microbiota in human metabolic health and disease.Nat Rev Microbiol2021;19:55-71

Sun P,Zhu H.Gut Microbiota regulation and their implication in the development of neurodegenerative disease.Microorganisms2021;9:2281 PMCID:PMC8621510

Carding S,Vipond DT,Owen LJ.Dysbiosis of the gut microbiota in disease.Microb Ecol Health Dis2015;26:26191 PMCID:PMC4315779

Vangay P,Gerber JS.Antibiotics, pediatric dysbiosis, and disease.Cell Host Microbe2015;17:553-64 PMCID:PMC5555213

Wild CP.Complementing the genome with an “exposome”: the outstanding challenge of environmental exposure measurement in molecular epidemiology.Cancer Epidemiol Biomarkers Prev2005;14:1847-50

Brüssow H.Problems with the concept of gut microbiota dysbiosis.Microb Biotechnol2020;13:423-34 PMCID:PMC7017827

Koh A.From association to causality: the role of the gut microbiota and its functional products on host metabolism.Mol Cell2020;78:584-96

Lacroix C,Chassard C.Integrated multi-scale strategies to investigate nutritional compounds and their effect on the gut microbiota.Curr Opin Biotechnol2015;32:149-55

Pham VT.The application of in vitro human intestinal models on the screening and development of pre- and probiotics.Benef Microbes2018;9:725-42

Veintimilla-gozalbo E,Calvo-lerma J,Andrés A.In vitro simulation of human colonic fermentation: a practical approach towards models’ design and analytical tools.Applied Sciences2021;11:8135

van de Steeg E,Obach RS.An ex vivo fermentation screening platform to study drug metabolism by human gut microbiota.Drug Metab Dispos2018;46:1596-607

Roupar D,Gonçalves DA.Evaluation of microbial-fructo-oligosaccharides metabolism by human gut microbiota fermentation as compared to commercial inulin-derived oligosaccharides.Foods2022;11:954 PMCID:PMC8997964

Kastl AJ Jr,Wu GD.The structure and function of the human small intestinal microbiota: current understanding and future directions.Cell Mol Gastroenterol Hepatol2020;9:33-45 PMCID:PMC6881639

Ohland CL.Microbial activities and intestinal homeostasis: a delicate balance between health and disease.Cell Mol Gastroenterol Hepatol2015;1:28-40 PMCID:PMC4339954

Booijink CC,Rajilić-Stojanović M.High temporal and inter-individual variation detected in the human ileal microbiota.Environ Microbiol2010;12:3213-27

Hewes SA,Estes MK,Blutt SE.In Vitro models of the small intestine: engineering challenges and engineering solutions.Tissue Eng Part B Rev2020;26:313-26 PMCID:PMC7462033

Stolaki M,Venema K.Microbial communities in a dynamic in vitro model for the human ileum resemble the human ileal microbiota.FEMS Microbiol Ecol2019;95:fiz096

Cieplak T,Nielsen S,van den Berg F.The smallest intestine (TSI) -a low volume in vitro model of the small intestine with increased throughput.FEMS Microbiol Lett2018;365

Akritidou T,Akkermans S.A protocol for the cultivation and monitoring of ileal gut microbiota surrogates.J Appl Microbiol2022;133:1919-39

Kheadr E,Dabour N,Le Blay G.Study of the physicochemical and biological stability of pediocin PA-1 in the upper gastrointestinal tract conditions using a dynamic in vitro model.J Appl Microbiol2010;109:54-64

Fernandez B,Fliss I.Survival and metabolic activity of pediocin producer pediococcus acidilactici ul5: its impact on intestinal microbiota and listeria monocytogenes in a model of the human terminal ileum.Microb Ecol2016;72:931-42

Microbiome Project Consortium. Structure, function and diversity of the healthy human microbiome.Nature2012;486:207-14 PMCID:PMC3564958

Gregory AC,Zayed AA,Bolduc B.The gut virome database reveals age-dependent patterns of virome diversity in the human gut.Cell Host Microbe2020;28:724-740.e8 PMCID:PMC7443397

Camarillo-Guerrero LF,Rangel-Pineros G,Lawley TD.Massive expansion of human gut bacteriophage diversity.Cell2021;184:1098-1109.e9 PMCID:PMC7895897

Chibani CM,Borrel G.Publisher correction: a catalogue of 1,167 genomes from the human gut archaeome.Nat Microbiol2022;7:339 PMCID:PMC8813613

Raimondi S,Gozzoli C.Longitudinal survey of fungi in the human gut: its profiling, phenotyping, and colonization.Front Microbiol2019;10:1575 PMCID:PMC6636193

Vemuri R,Chieppa M,Kavanagh K.Beyond just bacteria: functional biomes in the gut ecosystem including virome, mycobiome, archaeome and helminths.Microorganisms2020;8:483 PMCID:PMC7232386

Sender R,Milo R.Are we really vastly outnumbered?.Cell2016;164:337-40

Rajilić-Stojanović M.The first 1000 cultured species of the human gastrointestinal microbiota.FEMS Microbiol Rev2014;38:996-1047 PMCID:PMC4262072

Oren A.Valid publication of the names of forty-two phyla of prokaryotes.Int J Syst Evol Microbiol2021;71

Olsson LM,Nilsson S.Dynamics of the normal gut microbiota: a longitudinal one-year population study in Sweden.Cell Host Microbe2022;30:726-739.e3

Gill SR,Deboy RT.Metagenomic analysis of the human distal gut microbiome.Science2006;312:1355-9 PMCID:PMC3027896

Tap J,Levenez F.Towards the human intestinal microbiota phylogenetic core.Environ Microbiol2009;11:2574-84

Coyte KZ.Understanding competition and cooperation within the mammalian gut microbiome.Curr Biol2019;29:R538-44 PMCID:PMC6935513

Almeida A,Boland M.A unified catalog of 204,938 reference genomes from the human gut microbiome.Nat Biotechnol2021;39:105-14 PMCID:PMC7801254

Clavel T,Segata N.Next steps after 15 stimulating years of human gut microbiome research.Microb Biotechnol2022;15:164-75 PMCID:PMC8719818

Hoek MJAV.Emergence of microbial diversity due to cross-feeding interactions in a spatial model of gut microbial metabolism.BMC Syst Biol2017;11:56 PMCID:PMC5434578

Vos WM, Tilg H, Van Hul M, Cani PD. Gut microbiome and health: mechanistic insights.Gut2022;71:1020-32 PMCID:PMC8995832

Albenberg L,Judge CP.Correlation between intraluminal oxygen gradient and radial partitioning of intestinal microbiota.Gastroenterology2014;147:1055-63.e8 PMCID:PMC4252572

Singhal R.Oxygen battle in the gut: Hypoxia and hypoxia-inducible factors in metabolic and inflammatory responses in the intestine.J Biol Chem2020;295:10493-505 PMCID:PMC7383395

Whon TW,Kim JY.Omics in gut microbiome analysis.J Microbiol2021;59:292-7

Louis P.Formation of propionate and butyrate by the human colonic microbiota.Environ Microbiol2017;19:29-41

Pimentel M,Chang C.Gas and the microbiome.Curr Gastroenterol Rep2013;15:356

Rios-Covian D,Nogacka AM.An overview on fecal branched short-chain fatty acids along human life and as related with body mass index: associated dietary and anthropometric factors.Front Microbiol2020;11:973 PMCID:PMC7271748

Galloway-Peña J.Tools for analysis of the microbiome.Dig Dis Sci2020;65:674-85 PMCID:PMC7598837

Jian C,Yki-Järvinen H,Korpela K.Quantitative PCR provides a simple and accessible method for quantitative microbiota profiling.PLoS One2020;15:e0227285 PMCID:PMC6961887

Liu YX,Chen T.A practical guide to amplicon and metagenomic analysis of microbiome data.Protein Cell2021;12:315-30 PMCID:PMC8106563

Hillmann B,Shields-Cutler RR.Evaluating the information content of shallow shotgun metagenomics.mSystems2018;3 PMCID:PMC6234283

Laudadio I,Palone F,Cucchiara S.Quantitative assessment of shotgun metagenomics and 16S rDNA amplicon sequencing in the study of human gut microbiome.OMICS2018;22:248-54

Mailhe M,Vitton V.Repertoire of the gut microbiota from stomach to colon using culturomics and next-generation sequencing.BMC Microbiol2018;18:157 PMCID:PMC6201554

Vuik F,Lam SY.Composition of the mucosa-associated microbiota along the entire gastrointestinal tract of human individuals.United European Gastroenterol J2019;7:897-907 PMCID:PMC6683645

Bircher L,Geirnaert A,Lacroix C.Planktonic and sessile artificial colonic microbiota harbor distinct composition and reestablish differently upon frozen and freeze-dried long-term storage.mSystems2020;5 PMCID:PMC6977070

Demuth T,Bircher L,Nyström L.In vitro colon fermentation of soluble arabinoxylan is modified through milling and extrusion.Front Nutr2021;8:707763 PMCID:PMC8424098

Ramirez Garcia A,Greppi A.Impact of manipulation of glycerol/diol dehydratase activity on intestinal microbiota ecology and metabolism.Environ Microbiol2021;23:1765-79

Aguirre M,Koenen ME,Budding AE.Evaluation of an optimal preparation of human standardized fecal inocula for in vitro fermentation studies.J Microbiol Methods2015;117:78-84

Kerckhof FM,Geirnaert A.Optimized cryopreservation of mixed microbial communities for conserved functionality and diversity.PLoS One2014;9:e99517 PMCID:PMC4061060

Papanicolas LE,Wang Y.Bacterial viability in faecal transplants: Which bacteria survive?.EBioMedicine2019;41:509-16 PMCID:PMC6444077

Bircher L,Geirnaert A.Cryopreservation of artificial gut microbiota produced with in vitro fermentation technology.Microb Biotechnol2018;11:163-75 PMCID:PMC5743790

Walker AW,Duncan SH.Dominant and diet-responsive groups of bacteria within the human colonic microbiota.ISME J2011;5:220-30 PMCID:PMC3105703

Zmora N,Suez J.Personalized gut mucosal colonization resistance to empiric probiotics is associated with unique host and microbiome features.Cell2018;174:1388-1405.e21

Hou Q,Liu W.Probiotic-directed modulation of gut microbiota is basal microbiome dependent.Gut Microbes2020;12:1736974 PMCID:PMC7524168

Chen T,Zhang C,Zhao L.Fiber-utilizing capacity varies in prevotella- versus bacteroides-dominated gut microbiota.Sci Rep2017;7:2594 PMCID:PMC5453967

Paepe K, Kerckhof FM, Verspreet J, Courtin CM, Van de Wiele T. Inter-individual differences determine the outcome of wheat bran colonization by the human gut microbiome.Environ Microbiol2017;19:3251-67

Isenring J,Jans C,Geirnaert A.Identification of valerate as carrying capacity modulator by analyzing lactiplantibacillus plantarum colonization of colonic microbiota in vitro.Front Microbiol2022;13:910609 PMCID:PMC9197689

Poeker SA,Berchtold L.Understanding the prebiotic potential of different dietary fibers using an in vitro continuous adult fermentation model (PolyFermS).Sci Rep2018;8:4318 PMCID:PMC5847601

An R,Logtenberg MJ.In vitro metabolic capacity of carbohydrate degradation by intestinal microbiota of adults and pre-frail elderly.ISME COMMUN2021;1

Pérez-Burillo S,Navajas-Porras B.An in vitro batch fermentation protocol for studying the contribution of food to gut microbiota composition and functionality.Nat Protoc2021;16:3186-209

Payne AN,Chassard C.Advances and perspectives in in vitro human gut fermentation modeling.Trends Biotechnol2012;30:17-25

Nissen L,Gianotti A.Intestinal fermentation in vitro models to study food-induced gut microbiota shift: an updated review.FEMS Microbiol Lett2020;367:fnaa097

Sanabria J,Masuda R.Overview of the nomenclature and network of contributors to the development of bioreactors for human gut simulation using bibliometric tools: a fragmented landscape.J Agric Food Chem2022;70:11458-67 PMCID:PMC9501909

De Boever, Roel Wouters, Va. Development of a six-stage culture system for simulating the gastrointestinal microbiota of weaned infants.Microbial Ecology in Health and Disease2001;13:111-23

Blay G, Chassard C, Baltzer S, Lacroix C. Set up of a new in vitro model to study dietary fructans fermentation in formula-fed babies.Br J Nutr2010;103:403-11

den Abbeele P, Duysburgh C, Vazquez E, Chow J, Buck R, Marzorati M. 2′-Fucosyllactose alters the composition and activity of gut microbiota from formula-fed infants receiving complementary feeding in a validated intestinal model.J. Funct Foods2019;61:103484

Doo EH,Schwab C.Effect of dietary nucleosides and yeast extracts on composition and metabolic activity of infant gut microbiota in polyferms colonic fermentation models.FEMS Microbiol Ecol2017;93

Fournier E,Dominicis A.A child is not an adult: development of a new in vitro model of the toddler colon.Appl Microbiol Biotechnol2022;106:7315-36

Brodkorb A,Alminger M.INFOGEST static in vitro simulation of gastrointestinal food digestion.Nat Protoc2019;14:991-1014

Kleigrewe K,Baudin M.Dietary modulation of the human gut microbiota and metabolome with flaxseed preparations.Int J Mol Sci2022;23:10473 PMCID:PMC9499670

Pan L,Shang Q.In vitro fermentation and isolation of heparin-degrading bacteria from human gut microbiota.Anaerobe2021;68:102289

Valentová K,Kosina P.Biotransformation of silymarin flavonolignans by human fecal microbiota.Metabolites2020;10:29 PMCID:PMC7023230

Li L,Zhang X.RapidAIM: a culture- and metaproteomics-based Rapid Assay of Individual Microbiome responses to drugs.Microbiome2020;8:33 PMCID:PMC7066843

Li L,Ning Z.An in vitro model maintaining taxon-specific functional activities of the gut microbiome.Nat Commun2019;10:4146 PMCID:PMC6742639

Yao CK,Ou JZ,Muir JG.Modulation of colonic hydrogen sulfide production by diet and mesalazine utilizing a novel gas-profiling technology.Gut Microbes2018;9:510-22 PMCID:PMC6287689

So D,Gill PA,Gibson PR.Screening dietary fibres for fermentation characteristics and metabolic profiles using a rapid in vitro approach: implications for irritable bowel syndrome.Br J Nutr2021;126:208-18

Fekry MI,Zhang J.The strict anaerobic gut microbe Eubacterium hallii transforms the carcinogenic dietary heterocyclic amine 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP).Environ Microbiol Rep2016;8:201-9

Macfarlane GT,Gibson GR.Validation of a three-stage compound continuous culture system for investigating the effect of retention time on the ecology and metabolism of bacteria in the human colon.Microb Ecol1998;35:180-7

Molly K,Verstraete W.Development of a 5-step multi-chamber reactor as a simulation of the human intestinal microbial ecosystem.Appl Microbiol Biotechnol1993;39:254-8

Gibson GR,Macfarlane GT.Use of a three-stage continuous culture system to study the effect of mucin on dissimilatory sulfate reduction and methanogenesis by mixed populations of human gut bacteria.Appl Environ Microbiol1988;54:2750-5 PMCID:PMC204367

Zihler Berner A,Dostal A.Novel Polyfermentor intestinal model (PolyFermS) for controlled ecological studies: validation and effect of pH.PLoS One2013;8:e77772 PMCID:PMC3813750

Minekus M,Bernalier A.A computer-controlled system to simulate conditions of the large intestine with peristaltic mixing, water absorption and absorption of fermentation products.Appl Microbiol Biotechnol1999;53:108-14

Zihler A,Chassard C.Unexpected consequences of administering bacteriocinogenic probiotic strains for Salmonella populations, revealed by an in vitro colonic model of the child gut.Microbiology (Reading)2010;156:3342-53

Fehlbaum S,Haug MC,Derrien M.Design and investigation of polyferms in vitro continuous fermentation models inoculated with immobilized fecal microbiota mimicking the elderly colon.PLoS One2015;10:e0142793 PMCID:PMC4641611

García-Villalba R,Pitart J.Gastrointestinal simulation model twin-shime shows differences between human urolithin-metabotypes in gut microbiota composition, pomegranate polyphenol metabolism, and transport along the intestinal tract.J Agric Food Chem2017;65:5480-93

Van den Abbeele P,Eeckhaut V.Incorporating a mucosal environment in a dynamic gut model results in a more representative colonization by lactobacilli.Microb Biotechnol2012;5:106-15 PMCID:PMC3815277

Deschamps C,Uriot O.Comparative methods for fecal sample storage to preserve gut microbial structure and function in an in vitro model of the human colon.Appl Microbiol Biotechnol2020;104:10233-47

McDonald JA,Schroeter K.Simulating distal gut mucosal and luminal communities using packed-column biofilm reactors and an in vitro chemostat model.J Microbiol Methods2015;108:36-44

Pham VT,Rifa E.Lactate metabolism is strongly modulated by fecal inoculum, ph, and retention time in polyferms continuous colonic fermentation models mimicking young infant proximal colon.mSystems2019;4 PMCID:PMC6538849

Possemiers S,Uyttendaele S.PCR-DGGE-based quantification of stability of the microbial community in a simulator of the human intestinal microbial ecosystem.FEMS Microbiol Ecol2004;49:495-507

Van den Abbeele P,Marzorati M.Microbial community development in a dynamic gut model is reproducible, colon region specific, and selective for Bacteroidetes and Clostridium cluster IX.Appl Environ Microbiol2010;76:5237-46 PMCID:PMC2916472

McDonald JA,Fuentes S.Evaluation of microbial community reproducibility, stability and composition in a human distal gut chemostat model.J Microbiol Methods2013;95:167-74

Franzosa EA,Avila-Pacheco J.Gut microbiome structure and metabolic activity in inflammatory bowel disease.Nat Microbiol2019;4:293-305

Rodionov DA,Khoroshkin MS.Micronutrient requirements and sharing capabilities of the human gut microbiome.Front Microbiol2019;10:1316 PMCID:PMC6593275

den Abbeele P, Sprenger N, Ghyselinck J, Marsaux B, Marzorati M, Rochat F. A comparison of the in vitro effects of 2'fucosyllactose and lactose on the composition and activity of gut microbiota from infants and toddlers.Nutrients2021;13:726 PMCID:PMC7996240

Langille MG,Caporaso JG.Predictive functional profiling of microbial communities using 16S rRNA marker gene sequences.Nat Biotechnol2013;31:814-21 PMCID:PMC3819121

Douglas GM,Zaneveld JR.PICRUSt2 for prediction of metagenome functions.Nat Biotechnol2020;38:685-8 PMCID:PMC7365738

Gao B,Zhu Y.An introduction to next generation sequencing bioinformatic analysis in gut microbiome studies.Biomolecules2021;11:530 PMCID:PMC8066849