Genetic variability of hepatitis C virus in South Egypt and its possible clinical implication

Egypt is one of the countries with very high rates of hepatitis C virus (HCV) related morbidity and mortality. However, little is known about geographical and clinical differences in genetic variability of HCV in Egypt. Using direct sequencing and phylogenetic analysis of partial core/E1 and NS5B regions of the HCV genome, HCV genotype/subtype was determined in 129 HCV‐infected patients residing in three governates in south Egypt: Assuit, Sohag, and Qena. According to clinical stage of infection, patients were categorized into four groups: asymptomatic carriers, n = 16; chronic hepatitis C patients, n = 36; liver cirrhosis, n = 54; and hepatocellular carcinoma (HCC), n = 23. Genotype 4a was detected in 80.6%, whereas 1g, 4l, 4n, 4o, 4f, and 4m were identified in 7.7%, 4.7%, 3.9%, 1.6%, 0.8%, and 0.8% of cases, respectively. The prevalence of 4a differed regionally; from 88.5% (in Sohag) to 64% (in Assuit, P = 0.002). Genotypes 4l and 4n had a higher prevalence in Assuit (12.8%, 10.3%) than Sohag (0%, 0%; P ≤ 0.011). Difference in clinical features of determined genotypes/subtypes was observed; more carriers of non‐4a variants (4l and 4n, 4f, or 4m) had chronic hepatitis compared to carriers of 4a (53.3% vs. 23.1%, P = 0.025), while more patients with 4a had liver cirrhosis (45.2% vs. 13.3%, P = 0.023). Two HCV‐4o strains were isolated in this study, both from patients with HCC. In conclusion, geographical diversity of HCV was revealed in this study in southern Egypt. A further case–control study is required to confirm the trends of differential pathogenicity of HCV subtypes, indicated by this study. J. Med. Virol. 81:1015–1023, 2009. © 2009 Wiley‐Liss, Inc.     

Hepatitis C virus (HCV) genotypes and the influence of HCV subtype 1b on the progression of chronic hepatitis C in Korea: a single center experience

Background/Aims

There is some controversy regarding whether or not hepatitis C virus (HCV) subtype 1b is more influential than non-1b subtypes on the progression of chronic hepatitis (CH) C to liver cirrhosis (LC) and hepatocellular carcinoma (HCC).

Methods

We retrospectively analyzed 823 patients with chronic HCV infection, including 443 CH patients, 264 LC patients, and 116 HCC patients, who were HCV RNA positive and HBsAg negative. These patients had not received any prior treatment with either interferon alone or a combination of interferon and ribavirin.

Results

HCV subtypes 1b (51.6%) and 2a/2c (39.5%) were the two most common genotypes. The proportions of genotypes 2 (2a/2c, 2b, and 2) and 3 were 45.8% and 1.1%, respectively. One case of genotype 4 was found. HCV subtype 1b (47.3%) was less common than the non-1b subtypes (52.7%) in non-LC patients, but its proportion (56.9%) was higher than that of non-1b subtypes (43.1%) in LC patients (P=0.006). The proportions of patients with HCV subtype 1b did not differ significantly between the LC (55.3%) and HCC (60.3%) groups. Older age, male gender, and the relative progression of liver damage (non-LC vs. compensated LC vs. decompensated LC) were significant risk factors for HCC, with odds ratios of 1.081 (95% confidence interval [CI], 1.056-1.106), 5.749 (95% CI, 3.329-9.930), and 2.895 (95% CI, 2.183-3.840), respectively. HCV subtype 1b was not a significant risk factor for HCC (odds ratio, 1.423; 95% CI, 0.895-2.262).

Conclusions

HCV subtypes 1b and 2a/2c were the two most common HCV genotypes. HCV subtype 1b seemed to be more influential than non-1b subtypes on the progression of CH to LC, but not on the development of HCC from LC.     

TRUGENE sequencing versus INNO-LiPA for sub-genotyping of HCV genotype-4

Hepatitis C virus genotypes and subtypes determination is an important factor for understanding the epidemiology of the virus, in the pre-treatment evaluation of the patients and in defining better treatment strategies. In the present study, we compared two commercially available assays for HCV genotyping: the reverse hybridization based Innogenetics INNO-LiPA HCV II and the direct sequencing by TRUGENE assay. The study included 31 HCV-RNA positive Egyptian patients; 18 patients with chronic active hepatitis, 8 with HCC, and 5 with cirrhosis. Using the TRUGENE genotyping test, all the samples had genotype 4 (100%) and subtyped as 4a in 18/31(58%), 4c in 10/31 (32%), 4e in 1/31 (3%), 4a/c in 1/31 (3%), and 4g in 1/31 (3%). Using the INNO-LiPA assay, 30 samples had genotype 4 (97%), and 1 sample had genotype 1e (3%). One sample showed mixed infection with type 4f and type 1. Only six samples were subtypable by INNO-LiPA, three were genotype 4c/d, and the other three were 4f, 4e, and 1e. Seven samples gave reactivity in the INNO-LiPA of lines 5, 6, 16, 17, 18, which are considered untypable by the interpretation chart but considered to be a rare HCV genotype 4 by the manufacturer. At the genotype level, there was a 97% concordance between TRUGENE sequencing and INNO-LiPA, but at the subtype level the concordance rate was 3% only. We conclude that the TRUGENE genotyping assay is a reliable test for HCV genotyping for the detection of major types and subtypes detection, while INNO-LiPA is a good test at the genotype level but unreliable for subtyping especially in the Egyptian population. This is mainly due to the high diversity of genotype 4, which is the most prevalent genotype in Egypt.     

HCV genotypes and age distribution in patients of Vienna and surrounding areas.

BACKGROUND: Chronic hepatitis C (CHC) can result in liver cirrhosis and hepatocellular carcinoma. Determination of the hepatitis C virus (HCV) genotype/subtype may be of prognostic value to estimate the risk of development of liver cirrhosis. OBJECTIVE: The HCV genotype/subtype was determined in patients with CHC and possible associations with age, source of HCV transmission, duration of HCV infection, and development of liver cirrhosis were investigated. STUDY DESIGN: A total of 250 consecutive patients with CHC were studied. HCV genotypes/subtypes were determined with a commercially available assay based on the reverse-hybridization principle. Source of HCV transmission and duration of HCV infection were taken from the patient documentation and liver cirrhosis was diagnosed by clinical, biochemical, and sonographic data. RESULTS: HCV genotypes 1, 2, 3, 4, and 5 were found in 74.8, 2.8, 16, 5.2, and 0.4% of the patients. Most frequent subtypes were 1b (54%), 1a (15.6%), and 3a (15.6%). Patients with genotype 1 (mean, 52.8 years) or 2 (mean, 51.0 years) were significantly older than patients with genotype 3 (mean, 37.2 years) or genotype 4 (mean, 37.2 years). Patients with subtype 1b (mean, 58.1 years) were significantly older than patients with subtype 1a (mean, 40.8 years) or 3a (mean, 37.5 years). The main sources of HCV infection were intravenous drug abuse in 30.0% of all patients (genotype 1 in 53.3%; genotype 3 in 40%) or transfusion of blood and blood products in 21.6% of all patients (genotype 1 in 83.4%). The source of transmission, however, remained unknown in 44.8% of all patients. The prevalence of genotype 1 was significantly higher in patients with long duration (more than 20 years) of CHC. In none of the patients with genotype 2 or 3, duration of CHC for more than 20 years was observed. The prevalence of genotype 4 was significantly higher in patients with short duration (less than 10 years) of CHC. Liver cirrhosis was diagnosed in 13.6% of all patients (97.1% of patients with genotype 1). Patients with liver cirrhosis were significantly older compared to asymptomatic patients (mean, 63.8 vs. 51.3 years). CONCLUSION: HCV subtype 1b was found to be the main subtype in the investigated population and is currently the major contributor to liver cirrhosis. Patients infected with subtype 1a, however, are at comparable risk for development of liver cirrhosis. In future, subtype 3a and genotype 4 may also become an increasing problem.     

Molecular and epidemiological profiles of hepatitis C virus genotype 4 in Denmark

The prevalence of hepatitis C virus (HCV) genotype 4 has increased throughout Europe. This is an epidemiological study of patients infected chronically with HCV genotype 4 in Denmark. The HCV strains analyzed originated from patient samples collected between 1999 and 2007 as part of the national Danish hepatitis B and C network, DANHEP. Sequence analyses were based on the envelope 1 region of HCV. Results from a total of 72 patients indicated a high degree of genetic heterogeneity. Fifty‐six patients (78%) were infected with one of the three dominating subtypes: 4d, 4a, or 4r. The remaining 16 patients (22%) were infected with subtypes 4h, 4k, 4l, 4n, 4o, or 4Unclassified. Three epidemiological profiles were identified: (1) patients infected with HCV by intravenous drug use were infected solely with subtype 4d. They were all of European origin, and 15 of the 16 patients were ethnic Danes. No single transmission event could be confirmed, but the pairwise nucleotide identity within the patients of Danish origin was relatively high (～95%), suggesting a recent introduction into Denmark. (2) The 21 patients infected with subtype 4a all came from Northern Africa, Egypt, Pakistan, or the Middle East. (3) Patients from Southern Africa dominated among patients infected with subtype 4r (10 of 12 patients). This study demonstrates that HCV genotype 4d has been introduced in and spread among Danish intravenous drug users. The remaining subtypes show restricted distribution, infecting almost exclusively patients from geographical areas with a relatively high prevalence of HCV genotype 4 infections. J. Med. Virol. 82:1869–1877, 2010. © 2010 Wiley‐Liss, Inc.     

High prevalence of hepatitis C virus subtypes 4c and 4d in Malaga (Spain): phylogenetic and epidemiological analyses

Hepatitis C virus (HCV) is a major aetiological agent of chronic hepatitis and it may lead to the development of liver cirrhosis and hepatocellular carcinoma. HCV has been classified into six clades as a result of high genetic variability. A commercial procedure to genotype HCV in 678 patients from Carlos Haya Regional University Hospital, Malaga was used to study the distribution of HCV genotypes in Malaga, southern Spain. A high prevalence of HCV-4 (10.2%) was found. This genotype is found more commonly in Egypt, Central Africa and the Middle East. The distribution of the different subtypes in the 69 patients with HCV-4 was as follows: 4.3% subtype 4e, 7.2% subtype 4a, 11.5% not subtypable, and 76.8% subtype 4c/4d. Of the 53 4c/4d patients, 69% were intravenous drug users and 31% non-intravenous drug users. In order to characterise further the HCV-4c/4d patients, sequences of the non-structural 5B gene (393 bp) were obtained from 36 HCV-4c/4d-infected untreated patients. Phylogenetic tree topologies distinguished clearly the two subtypes: 11 patients were infected by subtype 4c and 25 by 4d. This phylogenetic analysis, reinforced by the epidemiological characteristics, suggests the extension of the HCV-4c and -4d subtypes in the area of Malaga among both intravenous drug users and non-intravenous drug users.     

Epidemic spread of hepatitis C virus genotype 3a and relation to high incidence of hepatocellular carcinoma in Pakistan

Studies conducted in different populations worldwide revealed an association between HCV genotype 1 and the development of hepatocellular carcinoma (HCC) than in infection with other HCV genotypes. There are reports which reveal the association of HCV genotype 3a (HCV‐3a) with hepatic steatosis and fibrosis but its relation with the development of HCC has not been investigated. In Pakistan, where the incidence of HCC is increasing, 189 patients with chronic liver disease including 82 with HCC were enrolled. HCV genotypes were determined by phylogeny in the NS5B region and the epidemic history of HCV‐3a was examined using coalescent theory based methods. HCV‐3a was the predominant genotype (81.4%) in the cohort studied, followed by 3b (9.3%), 3k (2.3%), 1a (1.5%), 1c (1.5%), 1b (0.8%), and 2a (0.8%) where 76% of HCC and 86% of non‐HCC were infected with HCV‐3a. The significant factors associated with HCC were older age (mean ± SD) 55.8 (±9.9) (P < 0.0001), and male gender (P < 0.001). HCV RNA was significantly higher in patients with HCC and chronic hepatitis than in liver cirrhosis (P < 0.0001). Molecular evolutionary analysis revealed a distinct phylogenetic cluster of HCV‐3a in Pakistan and an estimation of the effective number of HCV infections indicated the appearance of HCV‐3a in this region around 1920s and a rapid exponential growth in the 1950s. This indicates that the epidemic spread of HCV‐3a occurred earlier in Pakistan than in other countries in which this genotype has been reported. HCV‐3a which spread earlier in Pakistan may be associated with an increasing incidence of HCC. J. Med. Virol. 81:1189–1197, 2009. © 2009 Wiley‐Liss, Inc.     

Molecular epidemiology of hepatitis C virus genotype 4 isolates in Egypt and analysis of the variability of envelope proteins E1 and E2 in patients with chronic hepatitis

We analyzed hepatitis C virus (HCV) genotype 4 isolates circulating in the Alexandria District (Egypt) in terms of genetic divergence and the presence of different subtypes. Hypervariable region 1 (HVR1) and the NH2 region of the E2 protein were characterized, and the heterogeneity of subtype 4a isolates was evaluated by analyzing epitope frequencies, immunoproteasome prediction, and possible glycosylation patterns. The heterogeneity of the nucleotide sequences was greater than that found in previous studies, which reported only subtype 4a. Subtype 4a was most common (78% of cases), yet four new subtypes were found, with subtype 4m representing 11% of the cases and the other three subtypes representing another 11%. Substantial heterogeneity was also found when the intrasubtype 4a sequences were analyzed. Differences in the probability of glycosylation and in the positions of the different sites were also observed. The analysis of the predicted cytotoxic-T-lymphocyte epitopes showed differences in both the potential proteosome cleavage and the prediction score. The Egyptian isolates in our study also showed high variability in terms of the HVR1 neutralization epitope. Five of these isolates showed amino acid substitutions never previously observed (a total of six positions). Four of these residues (in four different isolates) were in positions involved in anchoring to the E2 glycoprotein core and in maintaining the HVR1 conformation. The results of this study indicate that HCV genotype 4 in Egypt is extremely variable, not only in terms of sequence, but also in terms of functional and immunological determinants. These data should be taken into account in planning the development of vaccine trials in Egypt.     

Influence of the HCV subtype on the virological response to pegylated interferon and ribavirin therapy

The hepatitis C virus genotype is considered to be the most important baseline predictor of a sustained virological response in patients with chronic hepatitis C treated with pegylated interferon and ribavirin. The influence of the subtype on the sustained virological response was investigated in patients infected with genotypes 1, 4, 5, or 6. This study was done on 597 patients with chronic hepatitis C who were given pegylated interferon and ribavirin for 48 weeks. The overall rate of sustained virological response in the 597 patients was 37.8%. Univariate analysis indicated that the sustained virological response of patients infected with subtype 1b (39%) tended to be higher than that of patients infected with subtype 1a (30.6%; P = 0.06) and it was similar to those patients infected with subtypes 4a (51.3%; P = 0.12) or 4d (51.7%; P = 0.16). Multivariate analysis indicated that five factors were independently associated with sustained virological response: the age (OR 0.97; 95% CI = 0.95–0.99), absence of cirrhosis (OR: 2.92; 95% CI = 1.7–5.0; P < 0.01), absence of HIV co‐infection (OR: 2.08; 95% CI = 1.2–3.5; P < 0.01), low baseline plasma HCV RNA concentration (OR: 1.74; 95% CI = 1.2–2.6; P < 0.01), and the subtype 1b (OR: 1.61; 95% CI = 1.0–2.5; P = 0.04) or subtypes 4a and 4d (OR: 2.03; 95% CI = 1.1–3.8; P = 0.03). In conclusion, among difficult‐to‐treat genotypes, the subtype 1a is associated with a lower response to anti‐HCV therapy than subtypes 1b, 4a, and 4d. J. Med. Virol. 81:2029–2035, 2009. © 2009 Wiley‐Liss, Inc.     

Distribution of genotypes and response to alpha-interferon in patients with hepatitis C virus infection in Germany

To determine the distribution of hepatitis C virus (HCV) genotypes in German isolates, nucleotide sequences of the viral nonstructural 5 (NS5) genome domains were analyzed in isolates from 107 chronically HCV-infected patients. Of these 107 patients, 46 (43.0% were infected with subtype 1a and 47 (43.9%) with subtype 1 b. Six patients (5.6%) with a history of intravenous drug abuse were infected with subtype 3a. Eight patients (7.5%) who had acquired their HCV infection in Egypt carried subtype 4a. Forty-three of the 107 patients were treated with -interferon. Of these 43 patients, 16 (37.2%) were infected with subtype 1a and 27 patients (62.8%) with subtype 1b. Three patients infected with HCV-subtype 1a (18.7%) and four patients infected with subtype 1b (14.8%) showed a sustained complete response after interferon therapy. The HCV genotype 1 with its subtypes 1a and 1 b was the most common source of HCV infection in this group of patients. There was no significant difference in response to -interferon treatment of HCV infection with the subtypes 1a or 1b.     

Molecular characterization,distribution, and dynamics of hepatitis C virus genotypes in blood donors in Colombia

Hepatitis C virus (HCV) is a frequent cause of acute and chronic hepatitis and a leading cause for cirrhosis of the liver and hepatocellular carcinoma. HCV is classified in six major genotypes and more than 70 subtypes. In Colombian blood banks, serum samples were tested for anti‐HCV antibodies using a third‐generation ELISA. The aim of this study was to characterize the viral sequences in plasma of 184 volunteer blood donors who attended the “Banco Nacional de Sangre de la Cruz Roja Colombiana,” Bogotá, Colombia. Three different HCV genomic regions were amplified by nested PCR. The first of these was a segment of 180 bp of the 5′UTR region to confirm the previous diagnosis by ELISA. From those that were positive to the 5′UTR region, two further segments were amplified for genotyping and subtyping by phylogenetic analysis: a segment of 380 bp from the NS5B region; and a segment of 391 bp from the E1 region. The distribution of HCV subtypes was: 1b (82.8%), 1a (5.7%), 2a (5.7%), 2b (2.8%), and 3a (2.8%). By applying Bayesian Markov chain Monte Carlo simulation, it was estimated that HCV‐1b was introduced into Bogotá around 1950. Also, this subtype spread at an exponential rate between about 1970 to about 1990, after which transmission of HCV was reduced by anti‐HCV testing of this population. Among Colombian blood donors, HCV genotype 1b is the most frequent genotype, especially in large urban conglomerates such as Bogotá, as is the case in other South American countries. J. Med. Virol. 82:1889–1898, 2010. © 2010 Wiley‐Liss, Inc.     

Hepatitis C virus subtypes circulating among intravenous drug users in Lisbon, Portugal

Hepatitis C virus (HCV) infects 2-3% of the world population and intravenous drug consumption is the leading cause of transmission in industrialized countries. The unavailability of data on the molecular epidemiology of HCV infection in Portugal prompted the study of HCV subtypes circulating among intravenous drug users residing in the Lisbon metropolitan area and sampled about 10 years apart (1998-2000 and 2008-2009). Partial coding sequences for E1 and/or NS5B were obtained from 124 individuals with HCV viremia, both mono-infected and co-infected with HIV. Phylogenetic analysis showed that, for both time periods, the most prevalent subtypes were 1a and 3a, found, altogether, in 64.9% and 71.6% of the individuals, respectively for the first and the second sampling periods. However, genotype 4 viruses (subtypes 4a and 4d), introduced later, as inferred by comparison of intra-subtype genetic distances, were also relatively frequent even one decade ago (24.6%). This HCV subtype profile for Portuguese intravenous drug users is in agreement with those described for other southern European countries when in association with drug consumption. With the exception of subtype 1b, phylogenetic trees did not show clustering of the Portuguese sequences, but rather phylogenetic mixing of HCV sequences from different geographic origins, as described previously in other Western countries and suggestive of a large international transmission network. Consistent with the low recombination rates reported for HCV, only one sample revealed discordant subtypes for the two regions analyzed (4d in E1 and 4a in NS5B), representing a potential new recombinant that deserves further analysis.     

Distribution of Hepatitis C Virus Genotypes in Istanbul,Turkey

Purpose: The hepatitis C virus (HCV) has seven main genotypes and multiple subtypes. The distribution of HCV genotypes varies across geographical regions worldwide. Updated estimates of HCV genotype distributions have a critical importance for developing strategies to manage or eliminate HCV infection. The aim of this study was to determine the distribution of HCV genotypes in patients with HCV admitted to a university hospital in Istanbul, Turkey. Materials and Methods: A total of 412 HCV RNA positive patients with 46.6% of males and 53.4% of females between January 2013 and September 2016 were included in the study. Genotyping of HCV of the study population was performed by a commercial reverse hybridisation line probe-based assay. Results: Genotype 1 (82.5%) was dominant genotype, followed by genotype 3 (10.7%), genotype 2 (4.6%) and genotype 4 (2.2%). Among patients with genotype 1, subtype 1a, 1b and undetermined subtype were 6.3%, 38.8% and 37.4%, respectively. It was observed that genotype proportion was dependent on gender and age of the patients. Genotype 1 and genotype 2 were more prevalent in females, whereas genotypes 3 and 4 were more prevalent in males. Genotype 1 in the older patients and genotype 3 in the younger patients were more prevalent. Conclusion: The majority of patients with HCV infection had genotype 1 (82.5%), followed by genotype 3, 2 and 4. Monitoring the change in HCV genotype distribution is critical for the development of effective strategies for HCV elimination.     

Hepatitis C virus genotypes in the Middle East and North Africa: Distribution,diversity, and patterns

Our objective was to characterize the distribution, diversity and patterns of hepatitis C virus (HCV) genotypes in the Middle East and North Africa (MENA). Source of data was a database of HCV genotype studies in MENA populated using a series of systematic literature searches. Pooled mean proportions were estimated for each genotype and by country using DerSimonian‐Laird random‐effects meta‐analyses. Genotype diversity within countries was assessed using Shannon Diversity Index. Number of chronic infections by genotype and country was calculated using the pooled proportions and country‐specific numbers of chronic infection. Analyses were conducted on 338 genotype studies including 82 257 genotyped individuals. Genotype 1 was dominant (≥50%) in Algeria, Iran, Morocco, Oman, Tunisia, and UAE, and was overall ubiquitous across the region. Genotype 2 was common (10‐50%) in Algeria, Bahrain, Libya, and Morocco. Genotype 3 was dominant in Afghanistan and Pakistan. Genotype 4 was dominant in Egypt, Iraq, Jordan, Palestine, Qatar, Saudi Arabia, and Syria. Genotypes 5, 6, and 7 had limited or no presence across countries. Genotype diversity varied immensely throughout MENA. Weighted by population size, MENA's chronic infections were highest among genotype 3, followed by genotype 4, genotype 1, genotype 2, genotype 5, and genotype 6. Despite ubiquitous presence of genotype 1, the vast majority of chronic infections were of genotypes 3 or 4, because of the sizable epidemics in Pakistan and Egypt. Three sub‐regional patterns were identified: genotype 3 pattern centered in Pakistan, genotype 4 pattern centered in Egypt, and genotype 1 pattern ubiquitous in most MENA countries.     

Identification of hepatitis C virus seroconversion resulting from nosocomial transmission on a haemodialysis unit: implications for infection control and laboratory screening.

Hepatitis C virus (HCV) seroconversion was detected by routine screening in a haemodialysis patient, Patient 1. Serological investigations were undertaken over the following 3 months to determine if further transmission to other patients on the unit had occurred. No additional cases were identified. Twenty-two haemodialysis patients known to have HCV infection were investigated using molecular epidemiological methods to determine if transmission between patients had occurred. HCV viraemia was demonstrated by polymerase chain reaction in 19 of 22 patients (86%). Genotyping showed that eight patients were infected with genotype 1, three with genotype 3 and eight, including Patient 1, with genotype 2. Phylogenetic analysis of viral sequences from the eight patients with genotype 2 revealed three, including Patient 1,with a novel subtype of HCV type 2, and revealed close similarity between viral sequences from patient 1 and those from one other patient, suggesting transmission. This was consistent with haemodialysis histories. Among other patients with genotype 2, there were two with subtype 2a and three others with three separate novel subtypes, as yet undesignated. With the exception of patient 1, all patients infected with novel subtypes were of Afro-Caribbean origin. The HCV prevalence among patients on the haemodialysis unit was high (14%), which may reflect the ethnicity of our haemodialysis population. This case emphasises the risk of nosocomial transmission and the importance of infection control procedures on haemodialysis units, and highlights the usefulness of molecular epidemiological techniques for the investigation of outbreaks of HCV infection.     

Long‐term outcome of hepatitis B and hepatitis C virus co‐infection and single HBV infection acquired in youth

Co‐infection with HBV and HCV seems to be associated with more severe liver disease in retrospective and cross‐sectional studies in adults, but no data are available when co‐infection is acquired in youth. The long‐term outcome of infection acquired in youth was assessed in patients co‐infected with HBV and HCV and in patients with HBV infection only. Twenty‐seven patients with HBV and HCV co‐infection and 27 patients infected with HBV only were enrolled. Seventy‐six per cent of the patients were treated with α‐interferon for 1 year. After a median follow‐up of 23 years, the annual progression rate of fibrosis was 0.07 in patients co‐infected with HBV and HCV, and in those infected with HBV it was 0.07 and 0.11 (P < 0.004) for HBe and anti‐HBe‐positive patients, respectively. In co‐infected patients, the development of cirrhosis was observed in 2 (7.4%) and of hepatocellular carcinoma (HCC) in 1 (3.7%), while in those with HBV, cirrhosis appeared in one patient (3.7%). Alcohol intake (OR = 9.5 ± 1.2; 95% CI = 6.6–13.9; P < 0.0001) was independently associated with cirrhosis and HCC. α‐interferon showed no efficacy during treatment, but the treated group showed higher HCV RNA clearance during post‐treatment follow‐up. Co‐infection with HBV and HCV and single HBV infection acquired in youth showed a low rate of progression to liver fibrosis, no liver failure, and low development of HCC during a median follow‐up of 23 years (range 17–40). J. Med. Virol. 81:2012–2020, 2009. © 2009 Wiley‐Liss, Inc.     

Genotype- and Subtype-Independent Full-Genome Sequencing Assay for Hepatitis C Virus

Hepatitis C virus (HCV) exhibits a high genetic diversity and is classified into 6 genotypes, which are further divided into 66 subtypes. Current sequencing strategies require prior knowledge of the HCV genotype and subtype for efficient amplification, making it difficult to sequence samples with a rare or unknown genotype and/or subtype. Here, we describe a subtype-independent full-genome sequencing assay based on a random amplification strategy coupled with next-generation sequencing. HCV genomes from 17 patient samples with both common subtypes (1a, 1b, 2a, 2b, and 3a) and rare subtypes (2c, 2j, 3i, 4a, 4d, 5a, 6a, 6e, and 6j) were successfully sequenced. On average, 3.7 million reads were generated per sample, with 15% showing HCV specificity. The assembled consensus sequences covered 99.3% to 100% of the HCV coding region, and the average coverage was 6,070 reads/position. The accuracy of the generated consensus sequence was estimated to be >99% based on results from in vitro HCV replicon amplification, with the same extrapolated amount of input RNA molecules as that for the patient samples. Taken together, the HCV genomes from 17 patient samples were successfully sequenced, including samples with subtypes that have limited sequence information. This method has the potential to sequence any HCV patient sample, independent of genotype or subtype. It may be especially useful in confounding cases, like those with rare subtypes, intergenotypic recombination, or multiple genotype infections, and may allow greater insight into HCV evolution, its genetic diversity, and drug resistance development.     

Genotype distribution and molecular epidemiology of hepatitis C virus in blood donors from southeast France

The genotype distribution of hepatitis C virus (HCV) in blood donors from southeast France was tracked for a period of 13 years (1991 to 2003). Virus genomes from 321 samples were analyzed by amplification and sequencing of the NS5b and E1 regions. The most frequent genotypes were 1b (30.2%), 1a (27.7%), and 3a (22.4%). Although it was less common, genotype 2 was characterized by the presence of strains belonging to 11 different subtypes, including 5 that had never been characterized. Genotypes 1a, 1b, 3a, and 4a presented typical "epidemic" profiles, with a large number of isolates per subtype and short mean genetic distances between isolates. Type 2 isolates displayed a typical "endemic" profile, with a large number of subtypes and very few isolates in each subtype. The epidemiology of HCV infection in southeast France changed radically during the study period in relation to modifications in the etiology of infection. We observed the emergence of new epidemic subtypes (subtypes 1a and 3) linked to intravenous drug use and a decrease in the types linked to blood transfusion and nosocomial infection (epidemic subtype 1b and endemic type 2). Comparison of strains from blood donors with strains from a cohort of inpatients in the same region during 2001 and 2002 demonstrated for the first time that the monitoring of blood donors is a generally valid indicator of HCV epidemiology in terms of genotype distribution.