View clinical trials related to Hepatitis C Infection.
Filter by:This study is aimed at assessing the safety of candidate Hepatitis C (Hep C) vaccines AdCh3NSmut1 and MVA-NSmut when administered to Human Immunodeficiency Virus (HIV) seropositive individuals. This study also aims to assess the cellular immune response generated by these vaccines when administered as mentioned above.
This study will investigate the effects of chronic HCV infection and corresponding innate immune activation on the immune response to HBV vaccination. We will recruit chronic HCV patients and healthy control patients for HBV vaccination. We will use RNA Sequencing (RNA-Seq), a relatively new technology for simultaneously measuring the expression of all genes, to determine patients' innate immune status, and learn how this innate immune signature is related to HBV vaccine response. We will then explore the mechanisms by which chronic HCV infection affects different immune cells and functions that are known to be important for an effective HBV vaccine response. These studies will enhance our understanding of the immune effects of chronic viral infection, establish factors that determine effective vaccine responses, and help guide vaccination strategies for HCV patients and other individuals with chronic inflammatory disease.
The main questions being addressed are (1) how patient reported outcomes change during treatment for HCV, (2) how treatment impacts liver function and liver status, and (3) how much treatment costs from the payer's perspective and the patient's perspective. The hypothesis being tested is that treatment has a negative effect on the quality of life during treatment. The negative effect is expected to be temporary. Successful treatment, which is equated with a virological cure of the infection, is expected to result in an improvement in quality of life compared to baseline and to improvement in markers of liver function and liver status. Costs of treatment are expected to be $80,000-$200,000 per virological cure.
This study is aimed at assessing the safety of candidate Hepatitis C vaccines AdCh3NSmut/MVA-NSmut and HIV vaccines ChAdV63.HIVconsv/MVA.HIVconsv when administered separately or in combination to healthy volunteers. The study also aims to assess the cellular immune response generated by these vaccines when administered as mentioned above.
Grps 1, 2, 3 "This study will be testing the performance of ASV and DCV pediatric chewable tablets. Grp #4 The purpose of this group is to support the marketing authorization of a DCV 90-mg tablet
This is a study of HCV treatment using the standard regimen of pegylated-interferon plus ribavirin in HIV co-infected patients participating in the PHPT cohort study. The treatment will be implemented in conjunction with gastro-enterologists/hepatologists by internists responsible for the participant's HIV treatment. Chronic hepatitis C virus (HCV) infection is responsible for several severe and life threatening complications, which are worsened by HIV co-infection. HIV-HCV co-infected patients are at a higher risk of death compared to HIV mono-infected individuals, even if HIV replication is suppressed on antiretroviral treatment. The goal of HCV antiviral treatment is to cure HCV infection. Curing HCV infection allows fibrosis regression, improved clinical outcomes. In addition, individuals who have been cured are no longer contagious to other individuals, therefore widespread access to HCV treatment may contribute to the control of the HCV epidemic. A combination of injectable pegylated-interferon with oral ribavirin is currently the recommended regimen for the treatment of hepatitis C in the setting of HIV co-infection. They are administered for 24 weeks in HCV mono-infected patients but need to be administered for one year in HIV-HCV co-infected patients. Newer drugs, such as the first generation HCV protease inhibitors (boceprevir, telaprevir), administered concomitantly, are used in patients who have not been cured using peg-interferon + ribavirin, and may allow for shorter treatment. PRIMARY OBJECTIVE 1. To determine the percentage of patients according to genotypes with sustained virological response 6 months after treatment discontinuation (SVR). HCV TREATMENT - Peg-interferon alpha 2-b (a subcutaneous injection of 1.5 micrograms/kg once a week) - Ribavirin dosing according to HCV genotype and body weight; dose adjustment in case of anemia. A total of 60 patients could be enrolled in the study: 15 HCV-HIV co-infected patients in a first part (starting in August 2014) and 45 patients in a second part, depending on funding.
This study evaluates the efficacy and safety of ABT-450/r/ABT-267 with RBV in treatment-naive and treatment-experienced HCV GT4 subjects without or with compensated cirrhosis.
The protocol will study the safety and efficacy of using sofosbuvir and ribavirin for the treatment of hepatitis c in patients taking stribild.
Primary Objectives: To demonstrate the safety of the Aethlon Hemopurifier® when used in extracorporeal blood purification. Secondary Objectives: To quantify the number of viral copies captured by the Aethlon Hemopurifier® during the first and last Hemopurifier treatments using elution methods developed by Aethlon Medical Inc. To measure changes in viral load in patients before and after treatment with the Aethlon Hemopurifier®.
The purpose of this study is to assess the effect of Daclatasvir, Asunaprevir, and BMS-791325 on the pharmacokinetics of selective serotonin reuptake inhibitors.