Pruritus observed during OBV/PTV/r ± DSV treatment of chronic hepatitis C is associated with increased on-treatment serum bile acid levels, possibly due to ritonavir-induced alterations of bile acid transport.
Chronic hepatitis C virus infection is characterized by multiple extra-hepatic manifestations. Innate immune dysfunction and hemolysis are symptoms which might be associated with each other. We investigated the impact of direct acting antivirals on neutrophil function and its connection to hemolysis. In this prospective study, 85 patients with or without cirrhosis and 21 healthy controls were included. Patients' blood samples were taken at baseline, at the end of therapy and at follow-up 12 weeks after end of therapy. Neutrophil phagocytosis, oxidative burst, and hemolysis parameters were studied. Multivariate analysis was performed to decipher the relationship between hemolysis and neutrophil function. Ex vivo cross-incubation experiments with neutrophils and serum fractions were done. Impaired neutrophil phagocytosis and mild hemolysis were observed in patients with and without cirrhosis. A proteome approach revealed different expression of hemolysis-related serum proteins in patients and controls. Direct acting antiviral therapy restored neutrophil function irrespective of severity of liver disease, achievement of sustained virologic response or type of drug and reduced hemolysis. Treatment with ribavirin delayed the improvement of neutrophil function. Statistical analysis revealed associations of haptoglobin with neutrophil phagocytic capacity. Neutrophil dysfunction could be transferred to healthy cells by incubation with patients' serum fractions (>30 kDa) ex vivo. Neutrophil dysfunction and hemolysis represent extrahepatic manifestations of chronic hepatitis C virus infection and simultaneously improve during direct acting antiviral therapy independently of therapy-related liver function recovery. Therefore, large-scale treatment would not only drive viral eradication but also improve patients' immune system and may reduce susceptibility to infections.
First-generation HCV protease inhibitors represent a milestone in antiviral therapy for chronic hepatitis C infection (CHC), but substantially increased rates of viral clearance are offset by increased rates of infection and infection-associated deaths, especially of patients with advanced liver disease. We aimed to assess whether first generation protease inhibitors interfere with neutrophil function. We included 108 consecutive, retrospective CHC patients and 44 consecutive, prospective CHC patients who were treated with peginterferon and ribavirin with or without protease inhibitors according to the guidelines in the period of November 2012 to June 2015. 33 healthy volunteers served as controls. Infection data were evaluated in all patients. Neutrophil phagocytosis, oxidative burst, elastase and diamine oxidase levels during 12 weeks of triple (n = 23) or dual therapy (n = 21) were studied in the prospective part. In the retro- and prospective cohorts patients experiencing clinically relevant infections were significantly more frequent during protease inhibitor therapy (31% and 26%) than during therapy with peginterferon and ribavirin (13% and 0%). Neutrophil phagocytosis decreased to 40% of baseline with addition of protease inhibitors to P/R but recovered 6 months after end of treatment. Protease inhibitors also seemed to reduce serum elastase levels but did not impact on gut permeability. Impaired neutrophil function during triple therapy with first generation HCV protease inhibitors may explain the high infection rate associated to these treatments and be of relevance for treatment success and patient survival.Trial RegistrationClinicalTrials.gov NCT02545400ClinicalTrials.gov NCT02545335
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