Changes in Colonic Bile Acid Composition following Fecal Microbiota Transplantation Are Sufficient to Control Clostridium difficile Germination and Growth.
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Functional Intestinal Bile Acid 7α-Dehydroxylation by Clostridium scindens Associated with Protection from Clostridium difficile Infection in a Gnotobiotic Mouse ModelFaecal microbiota transplantation: Where did it start? What have studies taught us? Where is it going?Impact of microbial derived secondary bile acids on colonization resistance against Clostridium difficile in the gastrointestinal tract.Understanding the mechanisms of faecal microbiota transplantation.Long-term effects on luminal and mucosal microbiota and commonly acquired taxa in faecal microbiota transplantation for recurrent Clostridium difficile infectionInteraction of gut microbiota with bile acid metabolism and its influence on disease states.Complete Microbiota Engraftment Is Not Essential for Recovery from Recurrent Clostridium difficile Infection following Fecal Microbiota TransplantationA Clostridium difficile-Specific, Gel-Forming Protein Required for Optimal Spore GerminationSynthesis and Biological Evaluation of Bile Acid Analogues Inhibitory to Clostridium difficile Spore Germination.Emerging Technologies for Gut Microbiome Research.The emerging metabolic view of Clostridium difficile pathogenesis.Fecal microbiota transplant in severe and severe-complicated Clostridium difficile: A promising treatment approach.Bile acid disease: the emerging epidemic.Neutrophil Extracellular Traps and Its Implications in Inflammation: An OverviewGut-liver axis at the frontier of host-microbial interactions.Inhibition of spore germination, growth, and toxin activity of clinically relevant C. difficile strains by gut microbiota derived secondary bile acids.Detection of Clostridium difficile in Feces of Asymptomatic Patients Admitted to the Hospital.Clostridium difficile infection: new approaches to prevention, non-antimicrobial treatment, and stewardship.Evaluating the effect of Clostridium difficile conditioned medium on fecal microbiota community structure.Protective Microbiota: From Localized to Long-Reaching Co-Immunity.Modulating bile acid pathways and TGR5 receptors for treating liver and GI diseases.Comparison of Different Strategies for Providing Fecal Microbiota Transplantation to Treat Patients with Recurrent Clostridium difficile Infection in Two English Hospitals: A Review.Treatment of recurrent Clostridium difficile colitis: a narrative review.Understanding Clostridium difficile Colonization.BaiCD gene cluster abundance is negatively correlated with Clostridium difficile infection.Mechanistic Insights in the Success of Fecal Microbiota Transplants for the Treatment of Clostridium difficile Infections.Early Results of Fecal Microbial Transplantation Protocol Implementation at a Community-based University Hospital.colitis and zoonotic origins-a narrative reviewFaecal microbiota transplantation is promising but not a panacea
P2860
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P2860
Changes in Colonic Bile Acid Composition following Fecal Microbiota Transplantation Are Sufficient to Control Clostridium difficile Germination and Growth.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@ast
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@en
type
label
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@ast
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@en
prefLabel
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@ast
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@en
P2093
P2860
P50
P1433
P1476
Changes in Colonic Bile Acid C ...... ficile Germination and Growth.
@en
P2093
Alexa R Weingarden
Clifford J Steer
Erin DeWinter
Megan K Shaughnessy
P2860
P304
P356
10.1371/JOURNAL.PONE.0147210
P407
P577
2016-01-20T00:00:00Z