Clinical spectrum of hepatitis C-related liver disease and response to treatment with interferon and ribavirin in haemophilia or von Willebrand disease

Our aim was to evaluate the severity of liver disease resulting from chronic hepatitis C in haemophilia or von Willebrand disease and the efficacy of 6 months treatment with interferon alpha and ribavirin. Fifty-five liver biopsies were performed in 43 patients without any bleeding complications, as seen with ultrasound immediately after the biopsy and 48 h thereafter. Histological changes were mild, with low scores for both inflammation and fibrosis, in spite of long exposure to blood products (mean 27 years). Two patients had compensated cirrhosis. Thirty-five out of 39 included patients completed study treatment. Hepatitis C virus (HCV)-RNA was negative in 77% (30/39) of patients at the end of treatment, and 36% (14/39) achieved a complete sustained response at follow-up 6 months after treatment. Treatment failure was more frequent in patients with virus genotype 1 compared with non-1 (P = 0.0003). The response rate correlated well with that of non-haemophilic patients. In summary: (1) liver biopsy was safe with our regimen; (2) liver disease in our patients was usually mild and had a slow progress; (3) only HCV genotype 1 predicted treatment failure; (4) our treatment results agreed with those from non-haemophilic patients

Nested Restriction Site-Specific PCR To Detect and Type Hepatitis C Virus (HCV): a Rapid Method To Distinguish HCV Subtype 1b from Other Genotypes

Genotypic differentiation of hepatitis C virus (HCV) has become an integral part of clinical management and epidemiologic studies of hepatitis C infections. Thus, it is extremely important in areas such as the Czech Republic, where current instrumentation and kits for assessing HCV infection are too costly for widespread use. We describe a new and relatively inexpensive method called nested restriction site-specific PCR (RSS-PCR) that generates a “fingerprint” pattern to represent an HCV genotype without the use of restriction endonucleases and that specifically differentiates HCV genotype 1b from the other HCV genotypes. The RSS-PCR method was applied directly to serum samples from patients with hepatitis C from the Czech Republic and from patients with known HCV genotypes from the United States. The method was validated by comparison of the subtype determined by RSS-PCR to the subtype determined from analysis of the 5′ noncoding region (NC) or the nonstructural protein gene (NS5b) nucleotide sequence of HCV in these clinical samples. From 75 Czech samples containing HCV RNA, three distinct RSS-PCR patterns were observed; 54 were predicted to contain subtype 1b, 19 were predicted to contain subtype 1a, and 2 were predicted to contain subtype 3a. Among 54 samples predicted to contain HCV genotype 1b, all were confirmed by their 5′ NC or NS5b sequences to be subtype 1b. Thus, both the sensitivity and specificity of the RSS-PCR test for the differentiation of HCV subtype 1b from the others were 100%. While the assay described here was designed to specifically differentiate HCV subtype 1b from the other HCV genotypes, the RSS-PCR method can be modified to differentiate any HCV genotype or subtype of interest. Its simplicity and speed may provide new opportunities to study the epidemiology of HCV infections and the relationship between HCV genotypes and clinical outcome by more laboratories throughout the world