Jasmohan S. Bajaj scite author profile

Background & Aims The gut microbiome is altered in cirrhosis; however its evolution with disease progression is partly understood. We aimed to study changes in microbiome over cirrhosis severity, its stability over time and its longitudinal alterations with decompensation. Methods Controls and age-matched cirrhotics (compensated/decompensated/hospitalized) were included. Their stool microbiota was quantified using multi-tagged pyrosequencing. Ratio of autochthonous to non-autochthonous taxa was calculated as the cirrhosis dysbiosis ratio(CDR); a low number indicating dysbiosis. Firstly, microbiome was compared between controls and cirrhotic sub-groups. Second, for stability assessment, stool collected twice within 6 months in compensated outpatients was analyzed. Thirdly, changes after decompensation were assessed using (a) longitudinal comparison in patients before/after hepatic encephalopathy development (HE), (b) longitudinal cohort of hospitalized infected cirrhotics MELD-matched to uninfected cirrhotics followed for 30 days. Results 244 subjects [219 cirrhotics (121 compensated outpatients,54 decompensated outpatients,44 inpatients) and 25 age-matched controls)] were included. CDR was highest in controls(2.05) than compensated(0.89), decompensated(0.66) and inpatients(0.32,p<0.0001) and negatively correlated with endotoxin. Microbiota and CDR remained unchanged in stable outpatient cirrhotics (0.91 vs. 0.86, p=0.45). In patients studied before/after HE development, dysbiosis occurred post-HE(CDR:1.2 to 0.42, p=0.03). In the longitudinal matched-cohort, microbiota were significantly different between infected/uninfected cirrhotics at baseline and a low CDR was associated with death and organ failures within 30 days. Conclusions Progressive changes in the gut microbiome accompany cirrhosis and become more severe in the setting of decompensation. The cirrhosis dysbiosis ratio may be a useful quantitative index to describe microbiome alterations accompanying cirrhosis progression.

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Baveno VII – Renewing consensus in portal hypertension

Franchis

Bosch

García–Tsao

et al. 2022

Journal of Hepatology

1,415

910

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Bile acids and the gut microbiome

Ridlon

Kang

Hylemon

et al. 2014

Current Opinion in Gastroenterology

1,082

909

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Purpose of the review We examine the latest research on the emerging bile acid-gut microbiome axis and its role in health and disease. Our focus revolves around two key microbial pathways for degrading bile salts, and the impact of bile acid composition in the gut on the gut microbiome and host physiology. Recent findings Bile acid pool size has recently been shown to be a function of microbial metabolism of bile acids in the intestines. Recent studies have shown potential mechanisms explaining how perturbations in the microbiome affect bile acid pool size and composition. Bile acids are emerging as regulators of the gut microbiome at the highest taxomic levels. The role of bile acids as hormones and potentiators of liver cancer are also emerging. Summary The host and microbiome appear to regulate bile acid pool size. The host produces a large, conjugated hydrophilic bile acid pool, maintained through positive-feedback antagonism of FXR in intestine and liver. Members of the microbiome utilize bile acids and their conjugates resulting in agonism of FXR in intestine and liver resulting in a smaller, unconjugated hydrophobic bile acid pool. Hydrophilicity of the bile acid pool is associated with disease states. Reduced bile acid levels in the gut are associated with bacterial overgrowth and inflammation. Diet, antibiotic therapy, and disease states affect the balance of the microbiome-bile acid pool.

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Jasmohan S. Bajaj

Hepatic encephalopathy in chronic liver disease: 2014 Practice Guideline by the American Association for the Study Of Liver Diseases and the European Association for the Study of the Liver

Altered profile of human gut microbiome is associated with cirrhosis and its complications

Baveno VII – Renewing consensus in portal hypertension

Bile acids and the gut microbiome

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