Recovery of the Gut Microbiome following Fecal Microbiota Transplantation

Seekatz, Anna M.; Aas, Johannes; Gessert, Charles E.; Rubin, Timothy A.; Saman, Daniel M.; Bakken, Johan S.; Young, Vincent B.

doi:10.1128/mbio.00893-14

Cited by 285 publications

(242 citation statements)

References 38 publications

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“…These results are in agreement with the in vitro and in vivo mouse studies that have previously observed that secondary bile acids, such as lithocholic or deoxycholic acid, inhibit C. difficile growth (20,25). Although the bacterial community is responsible for producing the metabolic environment, it is possible that several types of bacterial communities with similar functions may be capable of the same metabolic outcome, and that structure alone may not be enough to determine recurrence risk (82).…”

Section: R E V I E W S E R I E S : G U T M I C R O B I O M Esupporting

confidence: 81%

Clostridium difficile and the microbiota

Seekatz¹,

Young²

2014

J. Clin. Invest.

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204

182

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Section: R E V I E W S E R I E S : G U T M I C R O B I O M Esupporting

confidence: 81%

Clostridium difficile and the microbiota

Seekatz¹,

Young²

2014

J. Clin. Invest.

Self Cite

204

182

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“…The intestinal microbiome of children, especially the very young, is known to differ from adults yet there is very little data characterizing associated microbiome changes with FMT in children. Microbiome changes have been reported in a 20-mo-old boy (28), with decreased diversity of the microbiome prior to FMT, with a relative abundance of Proteobacteria, with increased diversity after FMT with increasing Bacteroidetes; these are similar changes to those previously described in adults (39,42). Additionally, in a case series of older children increased microbiome diversity after FMT for CDI appears to be sustained in those without IBD, however at 6 mo decreases to pre-FMT baseline in those with IBD, suggesting IBD hostrelated mechanisms may modify fecal microbiome diversity (29).…”

Section: Fecal Transplant In Childrensupporting

confidence: 71%

Fecal microbiota transplantation in children: a brief review

Hourigan

Oliva-Hemker

2016

Pediatr Res

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There has been a growing interest in fecal microbiota transplantation (FMT) over recent years, in part due to the increasing prevalence of Clostridium difficile infection (CDI) and expanding association of intestinal dysbiosis with a wide range of human diseases. Many adult studies have shown that FMT is an effective treatment for recurrent CDI and may possibly have applications in other illnesses such as inflammatory bowel disease (IBD); however, there is a paucity of data available in children who may differ from adults for many reasons including having a dynamic developing microbiome compared to adults who have a relatively stable microbiome. Here, we review published studies looking at FMT in children, for CDI and IBD, and discuss special considerations needed when conducting FMT in children.

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“…With the advent of next-generation sequencing, there has been an explosive increase in the use of this phylogenetic marker to characterize microbial communities in the environment and those associated with the body habitats of myriad animal species, including our own. The increasing ease and economy of defining human microbial ecology within and across individuals has spawned many studies that have sought to correlate community membership with health status (3)(4)(5)(6)(7)(8)(9). These studies have highlighted the variation in microbial diversity between body habitats in a given individual and intrapersonal variation in community membership within a given habitat over time, as well as substantial interpersonal differences.…”

mentioning

confidence: 99%

Identifying strains that contribute to complex diseases through the study of microbial inheritance

Faith¹,

Colombel

Gordon

2015

Proc. Natl. Acad. Sci. U.S.A.

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It has been 35 y since Carl Woese reported in PNAS how sequencing ribosomal RNA genes could be used to distinguish the three domains of life on Earth. During the past decade, 16S rDNA sequencing has enabled the now frequent enumeration of bacterial communities that populate the bodies of humans representing different ages, cultural traditions, and health states. A challenge going forward is to quantify the contributions of community members to wellness, disease risk, and disease pathogenesis. Here, we explore a theoretical framework for studies of the inheritance of bacterial strains and discuss the advantages and disadvantages of various study designs for assessing the contribution of strains to complex diseases.microbial inheritance | strain-resolution human microbial ecology analyses | effector strains | health | disease

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Recovery of the Gut Microbiome following Fecal Microbiota Transplantation

Cited by 285 publications

References 38 publications

Clostridium difficile and the microbiota

Clostridium difficile and the microbiota

Fecal microbiota transplantation in children: a brief review

Identifying strains that contribute to complex diseases through the study of microbial inheritance

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