Nutrients, Vol. 17, Pages 2117: The Gut’s Secret Code: Bowel Microbiota as a Biomarker for Adaptation

Nutrients, Vol. 17, Pages 2117: The Gut’s Secret Code: Bowel Microbiota as a Biomarker for Adaptation

Authors:
Joanna Braszczyńska-Sochacka
Jakub Sochacki
Michał Mik

Background: Chronic intestinal failure (CIF), most commonly caused by short bowel syndrome (SBS), necessitates complex care. This review explores the gut microbiota&rsquo;s role in intestinal adaptation in SBS, examining its potential as both a biomarker and therapeutic target. SBS results from extensive small bowel resection, leading to malabsorption and dependence on parenteral nutrition (PN). Post-resection, the gut microbiota undergoes significant alterations. While the small bowel microbiome typically comprises Streptococcus, Veillonella, and others, SBS patients often exhibit increased Gram-negative Proteobacteria. Dysbiosis is linked to adverse outcomes like liver disease and impaired growth, but beneficial effects such as energy salvage also occur. Intestinal adaptation, a process of increasing absorptive surface area in the remaining bowel, involves acute, remodeling, and maintenance phases. Preservation of ileum and stimulation with the oral diet are crucial. Biomarkers are needed to predict success, with gut microbiota composition emerging as a promising non-invasive option. The precise mechanisms driving adaptation remain incompletely understood. Conclusions: GLP-1 and GLP-2 analogues show promise in enhancing adaptation and reducing PN dependence. Surgical rehabilitation aims to maximize intestinal absorptive capacity, while transplantation remains a last resort due to high complication risks. Further research is needed to fully elucidate the microbiota&rsquo;s role and harness its potential in managing SBS.

Background: Chronic intestinal failure (CIF), most commonly caused by short bowel syndrome (SBS), necessitates complex care. This review explores the gut microbiota’s role in intestinal adaptation in SBS, examining its potential as both a biomarker and therapeutic target. SBS results from extensive small bowel resection, leading to malabsorption and dependence on parenteral nutrition (PN). Post-resection, the gut microbiota undergoes significant alterations. While the small bowel microbiome typically comprises Streptococcus, Veillonella, and others, SBS patients often exhibit increased Gram-negative Proteobacteria. Dysbiosis is linked to adverse outcomes like liver disease and impaired growth, but beneficial effects such as energy salvage also occur. Intestinal adaptation, a process of increasing absorptive surface area in the remaining bowel, involves acute, remodeling, and maintenance phases. Preservation of ileum and stimulation with the oral diet are crucial. Biomarkers are needed to predict success, with gut microbiota composition emerging as a promising non-invasive option. The precise mechanisms driving adaptation remain incompletely understood. Conclusions: GLP-1 and GLP-2 analogues show promise in enhancing adaptation and reducing PN dependence. Surgical rehabilitation aims to maximize intestinal absorptive capacity, while transplantation remains a last resort due to high complication risks. Further research is needed to fully elucidate the microbiota’s role and harness its potential in managing SBS. Read More