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Clinical Trial Summary

Patients with cirrhosis are particularly prone to infection which is frequently a precipitant of hepatic encephalopathy, renal failure and circulatory collapse. Bacterial infections are of particular concern in patients with cirrhosis because they are poorly tolerated. Sepsis and associated endotoxaemia whereby bacteria produce inflammatory particles occur in approximately 40% of hospitalized patients with cirrhosis and is a major cause of death.

Gut-derived and blood-borne pathogens can induce an inflammatory response within the liver and spleen, which are the major organs that remove bacteria and their endotoxin (such as lipopolysaccharide - LPS and bacterial DNA itself) from the bloodstream. Several mechanisms have been identified and proposed in this process which depends upon a balance between the barrier functions of the gut and the 'detoxifying' capacity of the liver. People with established liver cirrhosis have been shown to have escape of endotoxin into the bloodstream produced by bacteria that reside in their intestines, which becomes more permeable or 'leaky'.

Gut dysfunction is defined by changes in the types of bacteria within the gut and in overall permeability allowing bacterial products which would otherwise be contained within the gut to travel into the bloodstream and lymphatic system with detrimental effects elsewhere in the body. This passage of bacterial products is termed bacterial translocation, and it's effects on the liver and general immune system can be then be measured.

It has now become recognised that certain types of white blood cells such as neutrophils and monocytes become dysfunctional and this predisposes to infection and may also have a more direct pathogenic role in hepatic encephalopathy. Thus neutrophil and monocytes may be a novel pharmacotherapeutic target in a condition where current therapies such as bowel aperients (e.g. lactulose) are inadequate. A therapeutic strategy utilising Rifaximin, a non-absorbable antibiotic, to modulate gut bacterial which produce ammonia, a chemical known to be important in the cause of hepatic encephalopathy, could potentially lower gut-derived systemic inflammation, endotoxaemia, infection and organ dysfunction in this population improving outcomes and prolonging transplant-free survival.

We therefore plan to test if Rifaximin positively affects markers of immune dysfunction in patients with liver cirrhosis experiencing chronic hepatic encephalopathy after 30 days of treatment, as our primary research question.

Positive results from this study would support further trials into the potential benefit of using Rifaximin to improve immune function, as well as reduce the recurrence of hepatic encephalopathy, in patients with liver cirrhosis.


Clinical Trial Description

Overview

The study will be designed and conducted as a double blind placebo controlled randomised controlled trial - Clinical Trial of an Investigational Medicinal Product.

This study will be performed on patients referred to King's Liver Unit for further assessment and management of chronic overt hepatic encephalopathy (≥ Grade 1) or with ≥2 episodes of overt hepatic encephalopathy in the previous 6 months.

The study will be performed on 50 patients with cirrhosis and chronic hepatic encephalopathy [25 Rifaximin and 25 placebo] aged between 18 and 75 years managed within the Liver Unit at King's College Hospital which is the largest tertiary Liver Transplant Centre within the UK. For the purposes of this study a patient will be considered to have cirrhosis if they fulfil 2 out of 3 diagnostic criteria of confirmatory liver histology, biochemistry and/or radiologic findings consistent with cirrhosis/portal hypertension, and are presenting with chronic persistent overt hepatic encephalopathy (≥ grade 1) or with ≥2 episodes of overt hepatic encephalopathy in the previous 6 months.

Patient demographics, clinical details (including Westhaven hepatic encephalopathy grade) and blood haematology, biochemistry (including venous ammonia), microbiology data and neutrophil function will be assessed and collated at baseline and following 30 and 90 days of Rifaximin therapy or placebo. Intestinal permeability will be assessed using the intestinal disaccharide test. Faecal microbiota analysis will be performed by deep pyrosequencing techniques and plasma endotoxemia will be measured (lipopolysaccharide levels) with bacterial DNA quantification as a marker of bacterial translocation. These will all be measured at 3 time points: baseline and at 30 and 90 days after initiation of Rifaximin therapy or matching placebo.

Investigations

Patients will undergo intestinal functional tests within 7 days of recruitment, whereby they will be administered a test solution of not more than a cupful (150mls) of different types of non-absorbable sugars, which are drunk in liquid form by the participants. Prior to ingestion, baseline samples will be obtained as follows:

i) blood samples - for analysis of intestinal & immune (dys)function, and metabonomic analysis ii) urine sample - for intestinal (dys)function & metabonomic analysis iii) stool sample - for faecal biomarker and microbiota analysis

1v) ascitic sample (if clinically indicated) - surplus fluid will be analysed for bacterial translocation and immune (dys)function

Once the test solution has been ingested, blood samples will be obtained via a cannula which is placed in a vein, usually in the arm, prior to the start of the test, to allow further sampling without causing discomfort to the patient. A total of 15 samples will be obtained over a 5 hour period, with intervals ranging between 20-30mins, of not more than 6mls per sample. At the end of the test, at a 5 hour interval, a further urine sample will be collected to allow for intestinal functional testing. This is exactly the same procedure as that specified in the approved 'The Gut-Liver Axis in Liver Disease & Liver Transplantation' study (REC ref: 12/LO/1417).

Where participants are undergoing sampling of ascitic fluid for clinical reasons any fluid in excess of pathology's requirements will be analysed along with peripheral blood samples. Ascitic samples will only be taken from patients in whom a decision has been made to take these samples for clinical reasons (this decision will not be that of the investigator). No increased volume of such sample would be required.

Clinical outcomes (development of recurrent overt hepatic encephalopathy, organ failure and infection) will be recorded for a total of 90 days.

Analysis of samples - sites

Blood, urine and ascitic samples will be analysed in the Institute of Liver Studies and King's College Hospital laboratories where various tests to determine intestinal and immune function will be undertaken. Stool samples will be analysed both at laboratories at King's College Hospital and at the Franklin-Wilkins Building, King's College London, where faecal biomarkers and faecal microbiota analyses will be performed, respectively. Metabolic analyses for metabonomic profiling will be carried out at Imperial College London (both at St Mary's Hospital and at the South Kensington Campus).

Protocol

A more detailed list of the tests and analyses to be performed is to be found in the protocol. Study-specific flow charts have also been provided for a step-by-step representation of the study, visually representing the study process including participant recruitment, randomisation, sampling protocols and analyses at the three time points and follow-up visits. ;


Study Design

Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Basic Science


Related Conditions & MeSH terms


NCT number NCT02019784
Study type Interventional
Source King's College Hospital NHS Trust
Contact
Status Completed
Phase Phase 4
Start date January 2015
Completion date October 2016

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