Dietary approach and gut microbiota modulation for chronic hepatic encephalopathy in cirrhosis

Campion, Daniela; Giovo, Ilaria; Ponzo, Paola; Saracco, Giorgio Maria; Balzola, F.; Alessandria, Carlo

doi:10.4254/wjh.v11.i6.489

Cited by 40 publications

(43 citation statements)

References 225 publications

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“…The increase in the concentration of these toxic metabolites and the inability of the diseased liver to clear these products are considered to be important pathophysiological effects[ 143 ]. Furthermore, inflammation (systemic or local), leaky gut, bacterial translocation, and overgrowth of small intestinal bacteria are also critical to the pathogenesis of HE[ 158 ].…”

Section: Microbiota-gut-live-brain Axis and Cirrhosis And Hementioning

confidence: 99%

“…However, this conclusion has been overturned. Existing studies have shown that normal protein intake is well tolerated by patients with HE[ 158 ]. Interestingly, a clinical trial study showed that a high-protein, high-calorie diet based on casein-vegetable can significantly reduce the blood ammonia level of patients with HE and improve mental status[ 159 ].…”

Section: Microbiota-gut-live-brain Axis and Cirrhosis And Hementioning

confidence: 99%

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Role of gut microbiota via the gut-liver-brain axis in digestive diseases

Ding¹,

Jin²,

Yang³

et al. 2020

WJG

104

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The gut-brain axis is a bidirectional information interaction system between the central nervous system (CNS) and the gastrointestinal tract, in which gut microbiota plays a key role. The gut microbiota forms a complex network with the enteric nervous system, the autonomic nervous system, and the neuroendocrine and neuroimmunity of the CNS, which is called the microbiota-gut-brain axis. Due to the close anatomical and functional interaction of the gut-liver axis, the microbiota-gut-liver-brain axis has attracted increased attention in recent years. The microbiota-gut-liver-brain axis mediates the occurrence and development of many diseases, and it offers a direction for the research of disease treatment. In this review, we mainly discuss the role of the gut microbiota in the irritable bowel syndrome, inflammatory bowel disease, functional dyspepsia, non-alcoholic fatty liver disease, alcoholic liver disease, cirrhosis and hepatic encephalopathy via the gut-liver-brain axis, and the focus is to clarify the potential mechanisms and treatment of digestive diseases based on the further understanding of the microbiota-gut- liver-brain axis.

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Section: Microbiota-gut-live-brain Axis and Cirrhosis And Hementioning

confidence: 99%

Section: Microbiota-gut-live-brain Axis and Cirrhosis And Hementioning

confidence: 99%

Role of gut microbiota via the gut-liver-brain axis in digestive diseases

Ding¹,

Jin²,

Yang³

et al. 2020

WJG

104

View full text Add to dashboard Cite

show abstract

“…The major role of the gut microbiota in liver disease is also supported by various studies showing that several complications of serious liver disease, such as hepatic encephalopathy are efficiently treated by the modulation of gut microbiome via use of probiotics, prebiotics and antibiotics [ 107 ]. The pathogenesis of cirrhosis and the precise function of gut microbiome are not yet clear, but these findings that improvement in liver cirrhosis-induced animals and patients highlight the importance of modulation of the gut microbiome, suggesting novel approaches for therapeutic strategies for liver fibrosis.…”

Section: Cirrhosis and Gut Microbiomementioning

confidence: 99%

The Role of the Gut Microbiome in Liver Cirrhosis Treatment

Lee

Suk

2020

IJMS

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Liver cirrhosis is one of the most prevalent chronic liver diseases worldwide. In addition to viral hepatitis, diseases such as steatohepatitis, autoimmune hepatitis, sclerosing cholangitis and Wilson’s disease can also lead to cirrhosis. Moreover, alcohol can cause cirrhosis on its own and exacerbate chronic liver disease of other causes. The treatment of cirrhosis can be divided into addressing the cause of cirrhosis and reversing liver fibrosis. To this date, there is still no clear consensus on the treatment of cirrhosis. Recently, there has been a lot of interest in potential treatments that modulate the gut microbiota and gut-liver axis for the treatment of cirrhosis. According to recent studies, modulation of the gut microbiome by probiotics ameliorates the progression of liver disease. The precise mechanism for relieving cirrhosis via gut microbial modulation has not been identified. This paper summarizes the role and effects of the gut microbiome in cirrhosis based on experimental and clinical studies on absorbable antibiotics, probiotics, prebiotics, and synbiotics. Moreover, it provides evidence of a relationship between the gut microbiome and liver fibrosis.

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“…As we mentioned above, ammonia is a significant contributor to HE: normally, the ammonia in the gut lumen is transferred into the liver where it is metabolized into urea via urea cycle but when the host undergoes hyperammonemia or liver diseases, it enters the brain and causes aberrantly functioning neurons (Fig.2) (Wijdicks, 2016). It is a representative example of how the gut, liver, and brain are functionally connected and modulations of gut microbiota by supplementing prebiotics (lactulose) and probiotics, administering antibiotics (rifaximin), altering the dietary structure, and FMT are emerging in HE treatment (Amodio et al, 2014;Campion et al, 2019;Weir, 2020). What accords with the theme here is that HE can be triggered by medications.…”

Section: Connecting the Dots: Gut-liver-brain Aixs In Drug Toxicitymentioning

confidence: 99%

Connecting the dots: targeting gut microbiota in drug toxicity

Luo¹,

Zhou²

2020

Preprint

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Gut microbiota has been demonstrated to have a vast influence on human health in recent decades and its role in initiating, aggravating, or ameliorating diseases is emerging. Therapeutic strategies have therefore increasingly developed by targeting gut microbial modulation. Recently, its contribution to heterogeneous toxicological responses is also gaining attention, especially in drug-induced toxicity. Oral drugs interact directly with gut microbiota within the gastrointestinal tract and a number of them elicit toxicity mediated by intestinal microbiota. Present studies focus more on the unidirectional influence of how xenobiotics disturb intestinal microbial composition and function and consequently induce altered homeostasis. However, interactions between gut microbiota and xenobiotics are bidirectional and the impact of gut microbiota on xenobiotics especially on drugs should not be neglected. Thus, in this review, we intend to focus on how gut microbiota modulates drug toxicity by highlighting gut microbiota, microbial enzyme, and metabolites to proffer references for seeking common countermeasures in coping with drug toxicity by targeting gut microbiota. Moreover, we give a hypothesis that drugs capable of inducing gut dysbiosis tend to more or less impact the gut-connected organs as evidenced by the drug-induced hepatic encephalopathy, indicating an underlying link among the gut, liver, brain, and other possible organs in drug-induced toxicity.

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Dietary approach and gut microbiota modulation for chronic hepatic encephalopathy in cirrhosis

Cited by 40 publications

References 225 publications

Role of gut microbiota via the gut-liver-brain axis in digestive diseases

Role of gut microbiota via the gut-liver-brain axis in digestive diseases

The Role of the Gut Microbiome in Liver Cirrhosis Treatment

Connecting the dots: targeting gut microbiota in drug toxicity

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