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CompletedNCT02782247

Dynamic Liver Tests in Liver Disease

Changes in Dynamic Liver Function Tests in Patients With Chronic Viral Hepatitis Undergoing Antiviral Therapy

Status
Completed
Phase
Study type
Observational
Enrollment
52 (actual)
Sponsor
Queen Mary University of London · Academic / Other
Sex
All
Age
18 Years – 100 Years
Healthy volunteers
Not accepted

Summary

Chronic viral hepatitis often leads to liver scarring - cirrhosis. If the virus is eradicated from the liver, the liver scarring and liver function often recovers. In some patients the damage is too severe and recovery does not take place. It is not yet known which patients have liver disease that is too advanced to benefit from therapy nor is it known how fast the recovery occurs. Non-intrusive dynamic liver testing (DLT) may allow us to predict the functionality of the liver post treatment and may guide us in treatment choices - for example patients who are predicted not to recover may be prioritised for transplantation. Indocyanine green (ICG) is a dye solely excreted by the liver into bile and used to measure its dynamic function. Transient elastography is similar to ultrasound and measures the degree of fibrosis within the liver. The investigators hypothesise that the use of non-intrusive dynamic liver testing pre-treatment, will allow us to delineate patients before therapy who will have functional liver recovery following viral eradication. The investigators hypothesise that monitoring changes in liver fibrosis and liver function in patients with historical viral clearance will allow an assessment of the likely speed of recovery of liver fibrosis and function - for example if all patients 5 years after treatment for viral hepatitis induced cirrhosis have 'normal' fibrosis and liver function scores the investigators will be able to conclude that recovery is complete within 5 years. The investigators will perform a study pre and post-treatment assessing liver function using non-intrusive dynamic liver testing in addition to currently-used 'liver function' scoring systems, in a multivariate analysis, to determine whether or not the investigators can identify patients who are will have functional liver recovery post therapy.

Detailed description

Multiple diseases affect the liver's performance, including hepatitis' B and C viruses. Hepatitis infects the liver; ultimately leading to cirrhosis associated with complications (e.g. bleeding and death), termed decompensated cirrhosis. Hepatitis induced decompensated liver disease is likely to improve upon eradication of the virus as will liver function. Recently, Hepatitis C has seen new, more efficacious therapies, allowing functional outcomes to be evaluated following viral clearance. It has been shown this treatment regime is effective in eliminating the virus in 70% of patients but functional improvement to be 40% with the rest stagnating or becoming worse. These patients may have benefited from liver transplantation initially, followed by viral eradication therapy. Treatment of the Hepatitis B virus is to stop more copies to be produced within cells. This on the most part is successful and the liver recovers. However, after 5 years of treatment 26% of people do not recover sufficiently and the ability to identify these early is important to their future management. Non-intrusive dynamic liver testing (DLT) may allow us to predict the functionality of the liver post treatment and may guide us in adequate management strategies. Indocyanine green (ICG) is a dye solely excreted by the liver into bile and used to measure its dynamic function. Transient elastography is similar to ultrasound and measures the degree of fibrosis within the liver. The investigators hypothesise the use of non-intrusive dynamic liver testing pre-treatment, will allow us to delineate patients early, who would benefit from the most intensive treatments (e.g. transplant), and spare those with less severe disease the risks and potential side effects. The investigators will perform a study pre and post-treatment for DLT. These will be amalgamated with currently-used scoring systems, in a multivariate analysis, to ascertain the values and thus best-treatment option for patients.

Conditions

Interventions

TypeNameDescription
DEVICETransient elastographyTransient elastography will be measured using a Fibroscan® machine which is manufactured by echosens®. It has a CE mark of 0459. It is a non-invasive method to accurately measure stiffness of a patient's liver without the need for a liver biopsy. This is measured by an externally placed ultrasound probe which creates an elastic shear wave at 50Hz, and measures the velocity of the echo through the liver tissue. The liver stiffness is measured in kilopascals (kPa). It has been shown to be 99% effective in detecting cirrhosis in hepatitis C and has been shown to correlate with hepatoma production in both hepatitis C and hepatitis B. Values range from - normal \< 9.6 kPa, significant fibrosis 9.6-11.4kPa, cirrhosis \>11.5kPa. It cannot be used in patients with ascites.
DEVICEIndocyanine Green excretionThe machine to monitor the elimination of Indocyanine green is manufactured by PULSION medical systems (Munich, Germany) and consists of the PulsioFlex monitor and LiMON module. The LiMON module is a finger probe which measure near-infrared wavelengths between 805nm and 905nm. The absorption maximum for Indocyanine green is 800nm and emission at 830nm. This is then used to produce two calculations. The first is plasma disappearance rate of indocyanine green (PDRICG). This is based on working out the constant and backward extrapolation and expressed as a percentage per minute. The other is the retention ratio after 15 minutes (ICG15).

Timeline

Start date
2016-05-01
Primary completion
2022-10-01
Completion
2022-10-01
First posted
2016-05-25
Last updated
2023-03-08

Locations

1 site across 1 country: United Kingdom

Source: ClinicalTrials.gov record NCT02782247. Inclusion in this directory is not an endorsement.