Incorporating a mucosal environment in a dynamic gut model results in a more representative colonization by lactobacilli.
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Discovering probiotic microorganisms: in vitro, in vivo, genetic and omics approachesEvolutionary foundations for cancer biologyThe HMI™ module: a new tool to study the Host-Microbiota Interaction in the human gastrointestinal tract in vitroOptimized cryopreservation of mixed microbial communities for conserved functionality and diversity.Towards a better understanding of Lactobacillus rhamnosus GG--host interactionsDetection and characterization of Bifidobacterium crudilactis and B. mongoliense able to grow during the manufacturing process of French raw milk cheesesBringing the gut microbiota into focus through microbial culture: recent progress and future perspectiveImportant impacts of intestinal bacteria on utilization of dietary amino acids in pigs.Exopolysaccharides Produced by Lactic Acid Bacteria and Bifidobacteria as Fermentable Substrates by the Intestinal Microbiota.Interindividual differences in response to treatment with butyrate-producing Butyricicoccus pullicaecorum 25-3T studied in an in vitro gut model.Development and validation of a new dynamic in vitro model of the piglet colon (PigutIVM): application to the study of probiotics.Survival and germination of Bacillus cereus spores without outgrowth or enterotoxin production during in vitro simulation of gastrointestinal transit.Bacillus cereus NVH 0500/00 Can Adhere to Mucin but Cannot Produce Enterotoxins during Gastrointestinal Simulation.Microbiotas from UC patients display altered metabolism and reduced ability of LAB to colonize mucusButyrate-producing Clostridium cluster XIVa species specifically colonize mucins in an in vitro gut model.A microfluidics-based in vitro model of the gastrointestinal human-microbe interfaceFrom meta-omics to causality: experimental models for human microbiome research.Diversity of Bacillus cereus group strains is reflected in their broad range of pathogenicity and diverse ecological lifestyles.Satiety Innovations: Food Products to Assist Consumers with Weight Loss, Evidence on the Role of Satiety in Healthy Eating: Overview and In Vitro Approximation.Mucosa-associated biohydrogenating microbes protect the simulated colon microbiome from stress associated with high concentrations of poly-unsaturated fat.Dietary supplement based on stilbenes: a focus on gut microbial metabolism by the in vitro simulator M-SHIME®.Dietary emulsifiers directly alter human microbiota composition and gene expression ex vivo potentiating intestinal inflammation.Arabinoxylans, inulin and Lactobacillus reuteri 1063 repress the adherent-invasive Escherichia coli from mucus in a mucosa-comprising gut model.Butyrate-producing bacteria supplemented in vitro to Crohn's disease patient microbiota increased butyrate production and enhanced intestinal epithelial barrier integrity.Adhesion of Lactobacilli and their anti-infectivity potential.5-Fluorouracil and irinotecan (SN-38) have limited impact on colon microbial functionality and composition in vitro.Improved in vitro assay for determining the mucin adherence of bacteria sensitive to Triton X-100 treatment.In vitro evaluation of the mucin-adhesion ability and probiotic potential of Lactobacillus mucosae LM1.A simulated mucus layer protects Lactobacillus reuteri from the inhibitory effects of linoleic acid.Microbiota and Metabolism -- What's New in 2018.Discrepancies in microbiota composition along the pig gastrointestinal tract between in vivo observations and an in vitro batch fermentation model.Modelling upper respiratory tract diseases: getting grips on host-microbe interactions in chronic rhinosinusitis using in vitro technologies.In VitroModels for Studying Secondary Plant Metabolite Digestion and Bioaccessibility
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Incorporating a mucosal environment in a dynamic gut model results in a more representative colonization by lactobacilli.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 12 October 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@en
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@nl
type
label
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@en
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@nl
prefLabel
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@en
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@nl
P2093
P2860
P50
P1476
Incorporating a mucosal enviro ...... colonization by lactobacilli.
@en
P2093
Barbara Vanhoecke
Donald A MacKenzie
Massimo Marzorati
Melanie Derde
Sam Possemiers
Venessa Eeckhaut
P2860
P304
P356
10.1111/J.1751-7915.2011.00308.X
P577
2011-10-12T00:00:00Z