TT virus infection in patients with fulminant hepatic failure

OBJECTIVE: A new DNA virus, which has been designated the TT virus, was discovered in 1997. It is not clear whether TT virus is a cause of any of the types of hepatitis. We conducted a case-control study to test the hypothesis that the presence of TT virus is a necessary condition for the development of fulminant hepatic failure in people who have non-A, -B, or -C hepatitis. METHODS: We studied 55 patients with fulminant hepatic failure [28 men, 27 women, mean (+/- SD) age, 47 +/- 15 yr], 32 patients with acute hepatitis (18 men, 14 women, mean age, 38 +/- 15 yr), and 200 healthy subjects (106 men, 94 women, mean age, 42 +/- 14 yr). TT virus DNA was detected in sera by a nested polymerase chain reaction using a primer set for genotype 1. RESULTS: TT virus was more frequently detected in patients with fulminant hepatic failure [in 33 of 55 (60%); 95% confidence interval (CI), 47-73%] than in those with acute hepatitis [in 8 of 32 (25%); 95% CI, 10-40%; p = 0.0016] or in healthy subjects [in 50 of 200 (25%); 95% CI, 19-31%; p < 0.0001]. TT virus was detected at a significantly higher rate in non-A, -B, or -C fulminant hepatic failure [in 18 of 22 (82%); 95% CI, 66-98%] than in fulminant hepatic failure of A, B, or C type [45%, 28-62%, 15/33; p = 0.007] or in non-A, -B, or -C acute hepatitis [24%, 3-44%, 4/17; p = 0.0003]. The logistic regression analysis selected TT virus (p = 0.0009), age (p = 0.0116), and etiology (p = 0.0309) as independent variables associated with fulminant hepatic failure (coefficient of determination, 0.2335). CONCLUSIONS: TT virus comparatively plays a role in the pathogenesis of non-A, -B, or -C fulminant hepatic failure.     

TT virus and hepatitis G virus infections in Korean blood donors and patients with chronic liver disease

AIM: To determine the prevalences of TTV and HGV infections among blood donors and patients with chronic liver disease in Korea, to investigate the association of TTV and HGV infections with blood transfusion, and to assess the correlation between TTV and HGV viremia and hepatic damage. METHODS: A total of 391 serum samples were examined in this study. Samples were obtained from healthy blood donors (n=110), hepatitis B surface antigen (HBsAg)-positive donors (n=112), anti-hepatitis C virus (anti-HCV)-positive donors (n=69), patients with type B chronic liver disease (n=81), and patients with type C chronic liver disease (n=19). TTV DNA was detected using the hemi-nested PCR. HGV RNA was tested using RT-PCR. A history of blood transfusion and serum levels of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were also determined. RESULTS: TTV DNA was detected in 8.2 % of healthy blood donors, 16.1 % of HBsAg-positive donors, 20.3 % of anti-HCV-positive donors, 21.0 % of patients with type B chronic liver disease, and 21.1 % of patients with type C chronic liver disease. HGV RNA was detected in 1.8 % of healthy blood donors, 1.8 % of HBsAg-positive donors, 17.4 % of anti-HCV-positive donors, 13.6 % of patients with type B chronic liver disease, and 10.5 % of patients with type C chronic liver disease. The prevalence of TTV and HGV infections in HBV- or HCV-positive donors and patients was significantly higher than in healthy blood donors (P<0.05), except for the detection rate of HGV in HBsAg-positive donors which was the same as for healthy donors. There was a history of transfusion in 66.7 % of TTV DNA-positive patients and 76.9 % of HGV RNA-positive patients (P<0.05). No significant increase in serum ALT and AST was detected in the TTV- or HGV-positive donors and patients. CONCLUSION: TTV and HGV infections are more frequently found in donors and patients infected with HBV or HCV than in healthy blood donors. However, there is no significant association between TTV or HGV infections and liver injury.     

A prospective study of posttransfusion hepatitis in Taiwan.

In a follow-up study of 6 months or more of two hundred and ninety-six patients who had received blood transfusion, 37 (12.5%) developed acute posttransfusion hepatitis. Patients with posttransfusion hepatitis had significantly higher donor numbers and transfusion amounts than patients without hepatitis. Frequency was not related to the age, sex or hepatitis B carriage of recipients. There were no cases of fulminant hepatitis. Of 37 patients with hepatitis, 36 were diagnosed as non-A, non-B hepatitis and one as hepatitis B. Twenty-two (59.5%) of the 36 patients with non-A, non-B hepatitis seroconverted to hepatitis C antibody. Two of these were positive for hepatitis C antibody before transfusion and 12 were negative for hepatitis C antibody. Thirty-three of the 36 patients were followed-up for more than 6 months after the onset of hepatitis. While 13 of the 33 patients recovered, the remaining 20 (60.6%) patients still had persistent liver test abnormalities 6 months after the onset of hepatitis. Seventeen (85%) of the 20 patients who developed chronic hepatitis were hepatitis C antibody positive. In contrast, only four (30%) of the 13 patients who recovered after acute hepatitis were positive for the hepatitis C antibody. Chronicity rate was not related to the patient's sex, age, transfusion amount or donor number. Our results suggest a high frequency of posttransfusion hepatitis C in Taiwan and that the infection has a high risk of chronicity.     

GB virus C/hepatitis G virus infection in patients investigated for chronic liver disease and in the general population in southern Sweden

Serum samples from patients referred for liver biopsy for investigation of suspected chronic liver disease (n = 286) and from healthy middle-aged volunteers (n = 445) were analyzed for markers of exposure to GB virus C/hepatitis G virus (GBV-C/HGV), hepatitis B virus and hepatitis C virus. GBV-C/HGV analyses included GBV-C/HGV PCR for detection of viremia and GBV-C/HGV enzyme-linked immunosorbent assay for anti-GBV-C/HGV E2 antibodies. Liver biopsies were re-evaluated by a hepatopathologist. GBV-C/HGV markers were detected in 97/286 (34%) patients (GBV-C/HGV RNA = 26; anti-GBV-C/HGV E2 antibodies = 74) compared to 86/445 (19%; p < 0.0001) controls (GBV-C/HGV RNA = 7, anti-GBB-C/HGV E2 antibodies = 79). A significantly higher proportion of GBV-C/HGV-exposed subjects in the patient group were viremic compared to controls (27% vs. 8.1%; p = 0.0015). GBV-C/HGV markers were more commonly found in patients with chronic hepatitis B and C. In patients with GBV-C/HGV viremia, a higher occurrence of bile duct degeneration was detected than in non-viremic patients. Markers of GBV-C/HGV infection were over-represented among patients investigated for chronic liver disease, and ongoing GBV-C/HGV viremia was more common in this group than in controls. Apart from a higher prevalence of bile duct degeneration in viremic patients, infection with GBV-C/HGV did not confer any specific histological characteristics.     

Liver histology in co-infection of hepatitis C virus (HCV) and hepatitis G virus (HGV)

As little is known about liver histology in the co-infection of hepatitis C virus (HCV) and hepatitis G virus (HGV), HGV RNA was investigated in 46 blood donors with hepatitis C, 22 of them with liver biopsy: co-infection HCV / HGV (n = 6) and HCV isolated infection (n = 16). Besides staging and grading of inflammation at portal, peri-portal and lobular areas (Brazilian Consensus), the fibrosis progression index was also calculated. All patients had no symptoms or signs of liver disease and prevalence of HGV / HCV co-infection was 15.2%. Most patients had mild liver disease and fibrosis progression index, calculated only in patients with known duration of infection, was 0.110 for co-infection and 0.130 for isolated HCV infection, characterizing these patients as "slow fibrosers". No statistical differences could be found between the groups, although a lesser degree of inflammation was always present in co-infection. In conclusion co-infection HCV / HGV does not induce a more aggressive liver disease, supporting the hypothesis that HGV is not pathogenic.     

Hepatitis G infection and therapeutic response to interferon in HCV-related chronic liver disease.

Circulating HGV-RNA was determined in 117 patients with HCV-related chronic liver disease and in 200 healthy blood donors. The patients, aged 50.8+/-13.8 years, were classified as chronic hepatitis (CH; n = 82), liver cirrhosis (n = 25) and hepatocellular carcinoma (HCC; n = 10). HGV-RNA was detected in 5 (4.3%) patients, all with CH and in 10 (5%) of blood donors. The majority of all groups (52% to 70%) were infected with HCV genotype II/1b, including 4/5 patients with HGV co-infection. Of 5 patients with HGV co-infection, 4 were positive for anti-HBs and anti-HBc and none exhibited jaundice. A 24-week course of interferon treatment with 12-month follow-up was achieved in 27 patients with chronic active hepatitis, including 3 with HGV co-infection. Of these, 55.6% responded to the therapy, but only 6/27 (22.2%) patients were sustained responders. The majority of sustained responders were HCV genotype III/2a (4/6) while genotype II/1b was found in the majority of patients with relapse (7/9) and non-responders (9/12). At the 48- month follow up, 2/6 sustained responders (one with HGV co-infection) became HCV RNA positive. These results show that the prevalence of HGV infection in HCV-related chronic liver disease is low, as in the general population, and is found in younger patients with chronic hepatitis. HGV coinfection does not interfere with clinical severity, disease progression or response to interferon in patients with HCV-related chronic liver disease. The favorable factors ofinterferon treatment for HCV infection are young age, low HCV-RNA levels and HCV genotype III/2a.     

庚型肝炎病毒感染对急性肝炎致病性的探讨

目的 探讨急性肝炎患者肝组织中庚型肝炎病毒（ＨＧＶ）的感染状况及其致病性。方法 采用免疫组织化学方法对３７例血清学肝炎病毒标记甲￣戊型均阴性的急性肝炎患者肝穿肝组织中的ＨＧＶ ＮＳ５抗原等进行检测,并对ＨＧＶ感染的致病性进行研究。结果 ＨＧＶ ＮＳ５抗原的检出率为３７．８％（１４／３７）,其中ＨＧＶ ＮＳ５单项阳性４例（急性庚型肝炎组）。结果 ＨＧＶ ＮＳ５抗原的检出率为３７．８％（１４／３７）,     

Epidemiologic and virologic study of hepatitis C virus infections in Morocco

OBJECTIVES: We prospectively studied 783 consecutive Moroccan patients to define: 1) the prevalence of anti-hepatitis C virus (HCV) antibody (Ab), 2) the prevalence of other viral infections: HBs Ag, anti-HAV IgM, anti-HGV, HGV RNA, 3) the risk factors of spreading HCV infection, and 4) the distribution of HCV genotypes. RESULTS: 60/783 (7.7%) patients had anti-HCV Ab (48 H/12 F), 26 (3.3%) HBs Ag, and 3 (0.3%) IgM anti-HAV. Anti-HGV Ab was found in 11/60 (18.3%) anti-HCV positive patients, and 6/38 (15.8%) anti-HCV negative patients. 2/22 (9%) serum anti-HCV positive and anti-HGV negative patients were positive for HGV RNA. The 60 HCV positive patients rarely had other viral infections: 3 (5%) HBs Ag, 11 (18.3%) anti-HGV positive, 2 (9%) HGV RNA positive, and none had anti-HBc, IgM anti-HAV, or anti-HIV. HCV positive patients had more often undergone transfusion of blood products (21.7 vs 5.5%; P < 0.0001), and dental treatment (55% vs 8.3%; p < 0.0001). Patients with anti-HCV Ab frequently had hepatitis lesions on liver biopsy, i.e. chronic active hepatitis (n = 44) or cirrhosis (n = 16). HCV RNA was positive in 45/60 (75%) anti-HCV positive patients. HCV genotypes were: 1b (n = 21, 47%), 2a/2c (n = 13, 29%), 1a (n = 6, 13%), et 3 (n = 1, 2%). CONCLUSIONS: In our Moroccan population, the prevalence of HCV was high (7.7%). Other viral infections (HBV, HAV, HGV) were rare.     

Hepatitis C

The major cause of chronic post-transfusion hepatitis, the hepatitis C virus (HCV), has been identified. HCV is a single-stranded linear RNA virus with characteristics similar to the flaviviruses. A different agent, the hepatitis E virus, is associated with epidemic (enterically-transmitted) non-A, non-B hepatitis. At present, infection with HCV is recognized by the finding of anti-HCV antibodies, positive in up to 90% of patients with chronic non-A, non-B post-transfusion hepatitis. Antibodies to HCV are detected in 1% of normal volunteer blood donors and in the majority of donors implicated in post-transfusion hepatitis. HCV antibodies are also found in patients with autoimmune liver disease and hepatocellular carcinoma. Moreover, HCV infection may contribute to the pathogenesis of liver disease in alcoholic patients. The role of HCV infection in fulminant non-A, non-B hepatitis and hepatitis-associated aplastic anemia has not been elucidated as yet. Therapy of chronic non-A, non-B hepatitis with recombinant human alpha-interferon has been shown to improve or normalize aminotransferase levels in approximately 50% of patients, most of whom have evidence of HCV infection. However, relapse after cessation of treatment is common. In the future, screening blood for evidence of HCV infection may prevent most cases of non-A, non-B post-transfusion hepatitis.     

Early appearance of antibodies to hepatitis C virus in community acquired acute non-A, non-B hepatitis is associated with progression to chronic liver disease. The Copenhagen Hepatitis Acuta Programme

24 consecutive patients (14 females; median age 36, range 18-77) with liver biopsy proven acute non-A, non-B hepatitis (NANBH) were assayed for antibodies to hepatitis C virus (HCV). 14 (58%) were positive initially or during follow-up. Three patients were positive within 4 weeks following onset of symptoms and 7 patients in a serum sample obtained 4-8 weeks after clinical onset. Seroconversion was documented in 7/8 patients in paired sera from the acute phase of the disease. Anti-HCV was detected in 6% and 13% of control patients with acute hepatitis A and toxic hepatitis. NANBH in 6/14 patients (43%) with anti-HCV progressed to chronic liver disease (CLD). In contrast none of the anti-HCV negative patients developed CLD (p = 0.02). In addition, 2 anti-HCV positive patients developed fulminant and fatal hepatitis. The predominant route of HCV transmission was intravenous drug abuse. It is concluded that hepatitis may be ascribed to HCV infection in more than half of patients with community aquired NANBH, that seroconversion occurs in the majority within 8 weeks following onset of symptoms and that seropositive individuals often progress to CLD.     

Analysis of hepatitis G virus infection markers in blood donors and patients with hepatitis

The incidence and clinical significance of hepatitis G virus (HGV) is still not fully known. The aim of our study was to assess the frequency of HGV RNA and antibody to HGV E2 protein (anti-E2) in Polish blood donors and patients with hepatitis, and to compare the sequence of HGV clones with those reported by others. Two-hundred and nineteen blood donors and 83 patients with hepatitis were studied. HGV was detected in 3.2% and anti-E2 in 24.2% of blood donors and in 26.5% and 8.4% of patients with hepatitis, respectively. HGV was detected as a co-infection with HCV in four of 18 patients with chronic hepatitis, in four of 16 patients with acute hepatitis and in one of six patients with fulminant liver failure (FLF), and as a co-infection with HBV in one of six patients with FLF and in three of 10 patients with chronic hepatitis. In non-A–C hepatitis, eight of 23 patients with acute hepatitis and one of four patients with FLF were positive for HGV but all 10 patients with chronic cryptogenic hepatitis were negative. In the follow-up studies of patients with HGV alone, a correlation with viraemia and clinical symptoms was observed in two patients, but in three others HGV RNA was detected in spite of clinical resolution. Two HGV clones were sequenced, and the sequence of the HGV helicase region of the HGV isolates from donor and patient were homologous to those described by others. Hence, the frequency of HGV RNA in blood donors is similar to that obtained in other countries but the anti-E2 (marker of a past infection) frequency is higher. The incidence of HGV RNA and anti-E2 in hepatitis patients suggests that HGV plays a role in liver pathology, but careful analysis of individual cases does not confirm this.