Project description:Chronic hepatitis C virus (HCV) infection is the leading cause of death from liver disease and the leading indication for liver transplantation (LT) in the United States and Western Europe. LT represents the best therapeutic alternative for patients with advanced chronic liver disease caused by HCV or those who develop hepatocarcinoma. Reinfection by HCV of the graft is universal and occurs in 95% of transplant patients. This reinfection can compromise graft function and patient survival. In a few cases, the histological recurrence is minimal and non-progressive; however, in most patients it follows a more rapid course than in immunocompetent persons, and frequently evolves into cirrhosis with graft loss. In fact, the five-year and ten-year survival of patients transplanted because of HCV are 75% and 68%, respectively, compared with 85% and 78% in patients transplanted for other reasons. There is also a pattern of recurrence that is very severe, but rare (< 10%), called fibrosing cholestatic hepatitis, which often involves rapid graft loss. Patients who present a negative HCV viremia after antiviral treatment have better survival. Many studies published over recent years have shown that antiviral treatment of post-transplant HCV hepatitis carried out during the late phase is the best option for improving the prognosis of these patients. Until 2011, PEGylated interferon plus ribavirin was the standard of care, resulting in a sustained virological response in around 30% of recipients. The addition of protease inhibitors, such as boceprevir or telaprevir, to the standard of care, or the use of other direct-acting antiviral drugs may involve therapeutic changes in the context of HCV recurrence. This may result a better prognosis for these patients, particularly those with severe recurrence or factors predicting rapid progression of fibrosis. However, the use of these agents in LT still requires clarification in terms of safety and efficacy.

Project description:Approximately 20% of patients receiving liver transplants for end-stage hepatitis C rapidly develop severe allograph fibrosis within the first 24 months after transplant. Hepatitis C virus (HCV) variants were studied in 56 genotype-1-infected subjects with end-stage hepatitis C disease at the time before and 12 months after liver transplant, and post-transplant outcome was followed with serial liver biopsies. In 15 cases, pre-transplant HCV genetic diversity was studied in detail in liver (n=15), serum (n=15), peripheral blood mononuclear cells (n=13), and perihepatic lymph nodes (n=10). Our results revealed that pre-transplant HCV genetic diversity predicted the histological outcome of recurrent hepatitis C disease after transplant. Mild disease recurrence after transplant was significantly associated with higher genetic diversity and greater diversity changes between the pre- and post-transplant time points (p=0.004). Meanwhile, pre-transplant genetic differences between serum and liver were related to a higher likelihood of development of mild recurrent disease after transplant (p=0.039).

Project description:Recurrent hepatitis C virus (HCV) infection contributes to unfavourable outcomes in HIV/HCV coinfected liver transplant recipients. Direct-acting antiviral (DAA) therapies for HCV offer an opportunity to improve patient and allograft survival in this patient population. We evaluated treatment outcomes with sofosbuvir (SOF)-based DAA therapy among HIV/HCV coinfected liver transplant recipients.Single centre prospective cohort study.We identified eight HIV/HCV coinfected liver transplant recipients who were prospectively followed in the Northwestern University Viral Hepatitis Registry and who received SOF-based DAA therapy. We evaluated responses to therapy, including sustained HCV viral response 12 weeks after therapy completion (SVR12) and adverse effects.Seven recipients (87.5%) completed 12 weeks of SOF-based therapy: SOF/simeprevir for genotype 1 (n?=?6), SOF/ribavirin for genotype 2 (n?=?1). Of persons who completed therapy, all achieved SVR12. Strategies for the management of expected and observed drug interactions consequent to the addition of simeprevir to preexisting complex medication regimens included modifications of HIV antiretroviral regimens (n?=?4) and tacrolimus dosing (n?=?4) and frequent monitoring of tacrolimus trough levels. Minor adverse effects were observed after DAA initiation. One episode of allograft rejection and one death occurred that were deemed unlikely related to HCV therapy.High rates of HCV treatment success and no treatment-limiting adverse effects were observed in this HIV/HCV liver transplant cohort. Complex drug interactions were successfully managed in the context of multidisciplinary specialty care. Further studies are needed to assess the long-term effects of DAA therapy on patient and allograft survival among HIV/HCV coinfected liver transplant recipients.

Project description:Chronic hepatitis C virus (HCV) infection affects some 170 million people worldwide, including 3 to 4 million in the United States who are largely unaware of their infection status. HCV has 6 genotypes; genotype 1 is the most common in the United States and genotypes 1 and 4 are less responsive to interferon alfa-based therapy than the other genotypes. Treatment with available direct-acting antiviral (DAA) drugs has increased sustained virologic response (SVR) rates in genotype 1 infection and shortened duration of therapy in many patients, but at this time these agents must still be administered with peginterferon alfa and ribavirin to prevent rapid emergence of resistance. Baseline predictors of response to therapy continue to play a role with triple-drug combination therapy including the pharmacogenetic IL28B genotype, which differs in prevalence throughout the world. The stopping/futility rules are different for triple-drug combination therapy, allowing for earlier decision-making. Ultimately, SVR is the goal of HCV treatment because it dramatically reduces likelihood of poor long-term outcome, even among patients with histologically advanced disease. This article summarizes a basic review presented by Susanna Naggie, MD, at the IAS-USA live management of HCV continuing medical education program held in Atlanta in October 2012. This article is intended for practitioners who are new to HCV management or who are interested in reviewing the basics of HCV treatments.

Project description:Hepatitis C virus (HCV) infection is the most common etiology of chronic liver disease in Western countries. Morbidity and mortality due to HCV-related end-stage liver disease are increasing, just as novel therapeutics arrive with the promise of better cure rates that prevent these complications. However, substantial barriers to successful application of these novel treatments remain, including the lack of providers with sufficient knowledge to address this epidemic. To address these deficits, this article aims to provide a general framework with algorithms to guide initial management decisions for HCV genotype 1 infection, the most commonly found genotype, based on therapies approved as of 2013.

Project description:Hepatitis D virus (HDV) depends on hepatitis B virus (HBV) to enter and exit hepatocytes and to replicate. Despite this dependency, HDV can cause severe liver disease. HDV accelerates liver fibrosis, increases the risk of hepatocellular carcinoma, and hastens hepatic decompensation compared to chronic HBV monoinfection. The Chronic Liver Disease Foundation (CLDF) formed an expert panel to publish updated guidelines on the testing, diagnosis, and management of hepatitis delta virus. The panel group performed network data review on the transmission, epidemiology, natural history, and disease sequelae of acute and chronic HDV infection. Based on current available evidence, we provide recommendations for screening, testing, diagnosis, and treatment of hepatitis D infection and review upcoming novel agents that may expand treatment options. The CLDF recommends universal HDV screening for all patients who are Hepatitis B surface antigen-positive. Initial screening should be with an assay to detect antibodies generated against HDV (anti-HDV). Patients who are positive for anti-HDV IgG antibodies should then undergo quantitative HDV RNA testing. We also provide an algorithm that describes CLDF recommendations on the screening, diagnosis, testing, and initial management of Hepatitis D infection.

Project description:IntroductionHepatitis C Virus (HCV) is a chronic infection of the liver and the leading cause of liver failure and liver transplantation worldwide. While prior HCV therapies were prolonged and had variable success rates, the advent of direct-acting antivirals (DAAs) has dramatically improved HCV therapy with minimal side effects, shorter treatment durations, and higher cure rates. Areas covered: In this paper, we review the literature discussing the use of Vedroprevir (GS-9451) in treatment of HCV in a variety of patient populations. Articles accessible on MEDLINE/PubMed were reviewed to provide context on chemistry, pharmacology, and efficacy of Vedroprevir in HCV treatment. Expert opinion: Vedroprevir is highly effective in reducing treatment duration in combination with other DAAs without compromising treatment success rates. GS-9451 is insufficient as HCV monotherapy due to low threshold for development of high level of resistance and must be combined with other DAAs to achieve sustained virologic response (SVR).

Project description:The prevalence of hepatitis C virus (HCV) infection in patients on maintenance hemodialysis (MHD) is relatively higher than those without MHD. Chronic HCV infection detrimentally affects the life quality and expectancy, leads to renal transplant rejection, and increases the mortality of MHD patients. With the application of erythropoietin to improve uremic anemia and avoid blood transfusion, the new HCV infections during MHD in recent years are mainly caused by the lack of stringent universal precautions. Strict implementation of universal precautions for HCV transmission has led to markedly decreased HCV infections in many hemodialysis units, but physicians still should be alert for the anti-HCV negative HCV infection and occult HCV infection in MHD patients. Standard interferon alpha and pegylated interferon alpha monotherapies at a reduced dose are currently the main treatment strategies for MHD patients with active HCV replication, but how to increase the sustained virological response and decrease the side effects is the key problem. IFNα-free treatments with two or three direct-acting antivirals without ribavirin in MHD patients are waiting for future investigations.

Project description:Recurrent glomerular disease after kidney transplant remains an important cause of allograft failure. Many of the different entities post-transplant still suffer from incomplete knowledge on pathophysiology, and therefore lack targeted and effective therapies. In this review, we focus on specific clinical dilemmas encountered by physicians in managing recurrent glomerular disease by highlighting new insights into the understanding and treatment of post-transplant focal segmental glomerulosclerosis, membranous nephropathy, atypical hemolytic uremic syndrome, C3 glomerulopathy, amyloid light-chain (AL) amyloidosis, and IgA nephropathy.

Project description:Hepatitis B virus Genome sequencing and assembly