View clinical trials related to Hepatitis C Virus.
Filter by:This pilot study is crucial to determining whether treating individuals who are at high risk for transmission or re-infection will impact HCV reinfection rates. It will establish the feasibility of DAA treatment in corrections facilities, as well as delineate the underlying immune basis of HCV cure and reinfection.
The purpose of this study is to measure intrahepatic HCV RNA levels at the time of liver transplantation in patients receiving antiviral therapy while on the liver transplant waiting list. This will eventually be correlated with the degree of hepatic fibrosis present within different geographic sites in the cirrhotic liver. Tissue samples will be obtained from the patient's liver explant as well as hilar lymph nodes. Upon the removal of the cirrhotic liver at the time of transplantation, the explant will be biopsied multiple times in different segments of the liver and preserved for viral detection studies as well as analysis of the degree of fibrosis. Peripheral blood mononuclear cells (PBMCs) will be obtained for viral detection at the time of transplantation. Serum HCV RNA levels will also be obtained at 1 month, 3 months and 6 months post liver transplantation. Study Hypotheses: - Virological relapse or non-response is higher is patients with cirrhosis due to failure of antiviral medication to concentrate adequately in a fibrotic liver having an altered sinusoidal micro-architecture - HCV may persist in different geographic regions of the fibrotic liver in part predicated on blood supply to that area and this may have an effect on overall virological response. These differences in viral persistence and detection may exist in different lobes of the liver or even within a few centimeters within the same portion of the liver parenchyma. - PBMC and hilar lymph nodes may be extrahepatic reservoirs of HCV viral persistence in patients receiving antiviral therapy and may account for virological relapse post-therapy - There may be varying degrees of fibrosis within the same cirrhotic liver which may impact on hepatic synthetic function and antiviral response to treatment.
Insulin resistance is one of the key factors in defining a progressive course of chronic Hepatitis C virus (HCV) infection and hepatic fibrosis. Multiple trials have targeted insulin resistance as an adjuvant way to manage hepatitis C liver disease with promising results. Long term therapy using high dose insulin was shown to significantly reduce insulin resistance in obese patients. In cardiac and critically ill patients, long term insulin was shown to produce better outcomes mainly by reducing the overt inflammatory response. Furthermore, initial results of ongoing trials are revealing more benefits of insulin therapy. Using the (hyperinsulinimic normoglycemic clamp) for eight hours on patients undergoing major liver resection was able to maximize their liver function post-operatively. This trial also demonstrated inhibition of the inflammatory response, improvement in liver glycogen, inhibition of apoptosis and stimulation of liver regeneration. Putting in mind the potential ability of the liver to regenerate and regain better function. The anti-inflammatory properties of insulin therapy along with its ability to reduce insulin resistance over time has led us to see the potential benefits of using insulin therapy on patients with chronic hepatitis C virus liver cirrhosis. Insulin will target the pathophysiology of the disease at a cellular and a molecular level. The investigators theorize that long-term high insulin therapy would be able to promote better liver function and slow down fibrosis and injury in this population of patients.
In this study Peg-Intron will be tested to see if it will give better results than Colchicine. At this time, there is currently no recommended maintenance treatment for patients who have failed to respond to Interferon/Rebetron/Peg Intron and have advanced fibrosis. The purpose of this study is to compare two treatments to slow down the progression of liver disease and to prevent liver failure and liver cancer. The treatment will not cure Hepatitis C, but is being evaluated to see if it can slow down disease progression.