Detection of hepatitis C virus sequences in sera with controversial serology by nested polymerase chain reaction.

The specificity of first-generation enzyme-linked immunosorbent assays (ELIAs) for antibody detection in individuals with hepatitis C virus (HCV) infection has been questioned in some pathological situations. We observed a surprisingly high prevalence of anti-HCV antibodies in alcoholic patients, and thus, false-positive reactions in anti-HCV tests were strongly suspected. The introduction of new epitopes, particularly a core protein, C22 (second-generation tests), seems to increase the sensitivity of anti-HCV detection. In order to study the specificity of the second-generation tests, 60 serum samples from alcoholic patients found to be positive by the first-generation anti-HCV ELISA (Ortho) were reexamined by a second-generation anti-HCV enzyme immunoassay (Abbott) and a recombinant immunoblot assay (RIBA II; Chiron). Fifteen serum samples gave contradictory results when they were tested by the two assays. We performed nested polymerase chain reactions (PCRs) to confirm that the discrepancies that we observed could be due to the presence of low levels of anti-HCV antibodies, which were detected by a more sensitive test, or to unspecific positive reactions. Nested PCR revealed the presence of HCV RNA sequences in all anti-HCV-positive sera or sera that were weakly positive by ELISA. Anti-HCV positive by RIBA II was always correlated with the presence of viral RNA in serum, but HCV RNA was detected in RIBA II-negative sera. These results indicate that the specificity of the second-generation tests is an important improvement but that an HCV infection can still persist without detectable antibodies. PCR remains the reference assay to clear up controversial serology results and to detect HCV infection in patients with no anti-HCV-detectable immune response.     

Non-specific and specific anti-HCV results correlated to age, sex, transaminase, rhesus blood group and follow-up in blood donors

Summary.  Second generation enzyme immunoassays (EIA-2) for antibodies to hepatitis C virus (anti-HCV) have a higher specificity and sensitivity than first generation enzyme immunoassays (EIA-1). We studied how many anti-HCV-positive blood donors were missed by the EIA-1, how many were false positive, how false-positive donors should be dealt with and how the results of the EIA-2 correlate to demographic data and serum alanine aminotransferase (ALT) level. A total of 208, 544 northern German blood donors, not preselected for anti-HCV negativity, were tested for anti-HCV with EIA-2 and, if repeatably reactive (rr), were retested with a licensed supplementary test (RIBA-2). 0.43% of the donors were EIA-2 rr, but only 0.12% of women and 0.09% of men were RIBA-2 positive. RIBA-2 positivity rates were very low in donors 18 to 27 years old (0.03% and 0.05%) and rose with age in women but not in men. Infected women were significantly more often Rhesus-negative than men. The rate of unspecifically positive EIA-2 results (entirely negative in RIBA-2) increased with age in both sexes and did not correlate with ALT. The ALT distribution was age-dependent with a different pattern for men and women. Confirmation of EIA-2 results with RIBA was rare when ALT was low and frequent when ALT was high. ALT screening before introduction of Anti-HCV detected one out of six infected donors. To exclude this one infectious donation, 46 uninfected donations had to be excluded in addition. Only 8% of the then RIBA-2-positive donors were not detected by EIA-1. Apparent seroconversions in EIA-2 are usually not specific: only 1 out of 66 apparent seroconversions could be confirmed by RIBA-2 suggesting recent HCV infection. 0.15% of the donor population showed an inconsistent EIA-2 pattern during follow-up. We conclude that donors should not be excluded from further donations, even on the basis of multiple EIA-1 positive results or on the basis of only one EIA-2 positive donation. Anti-D-immunoglobulin prophylaxis may have been a source of infection in some Rhesus-negative women. ALT screening should not be discontinued because recent HCV infection can be detected earlier by ALT than by anti-HCV, but exclusion limits should be elevated to increase specificity and limit unnecessary exclusion of donations.     

从基因分型看血液透析及肾移植患者丙型肝炎病毒感染状况

采用国产和美国Ｏｒｔｈｏ公司第２代抗丙型肝炎病毒（ＨＣＶ）试剂对１００例维持性血透及肾移植患者进行血清丙型肝炎病毒抗体（抗－ＨＣＶ）对比检测。阳性标本用聚合酶键反应（ＰＣＲ）法检测ＨＣＶＲＮＡ并采用型特异的ＨＣＶ亚基因探针对其非结构蛋白ＮＳＳ区扩增产物进行了杂交基因分型。结果表明，这组病人中抗－ＨＣＶ阳性率为４１％，肾移植术后再透析者达５６．５２％，且与透析时间、输血次数、受血量成正相关；国产抗－ＨＣＶ试剂同美国Ｏｒｔｈｏ公司试剂比较阳性符合率达９１．４３％；抗－ＨＣＶ阳性患者中有３１．４３％（１１／３２）血清ＨＣＶＲＮＡＮＳ５阳性；透析患者中，ＨＣＶ基因型各型均有，以混合型为主，占６３．６４％。     

Clinical significance of serum hepatitis C virus (HCV) RNA as marker of HCV infection.

We have evaluated the clinical significance of hepatitis C virus (HCV) RNA determination by analyzing a group of 221 hospitalized patients with abnormal liver function tests. Serum HCV RNA was detected by "nested" PCR amplification followed by nonisotopic hybridization. Of the 200 (90.5%) patients with anti-HCV-positive enzyme-linked immunosorbent assay results, 152 (76%) were RIBA reactive, 47 (23.5%) had indeterminate results, and 1 (0.5%) was nonreactive. Of the 180 (90%) patients positive for anti-HCV and HCV RNA, 138 (76.7%) were RIBA reactive and 42 (23.3%) were RIBA indeterminate. The pattern of RIBA reactivity did not correlate with the presence of HCV RNA. Elevated alanine aminotransferase levels were associated neither with the presence of viremia nor with the RIBA pattern. Histological findings consistent with non-A non-B hepatitis correlated with the presence of HCV RNA but not with the RIBA pattern. HCV RNA was detected in 11 of 21 (52.4%) anti-HCV-negative patients. These 11 patients were either immunosuppressed or in the prodromic phase of acute hepatitis C. Circulating HCV RNA can therefore be described as being predictive of virus-induced liver damage in anti-HCV-positive patients and may be useful in the diagnosis of HCV infection in anti-HCV-negative immunosuppressed patients or in those with early acute infection.     

Antibodies to a putative hepatitis C virus polyprotein in Japanese patients with chronic liver disease.

To investigate the frequency of exposure to hepatitis C virus (HCV) in chronic liver disease, sera from Japanese patients were tested with the original anti-HCV assay (Ortho) and an anti-HCV assay based on synthetic peptides corresponding to a variety of regions in the HCV genome. Thirty-one (67%) of 46 patients with chronic non-A,non-B hepatitis were anti-HCV-positive by the Ortho ELISA, 20 of whom were also positive by ELISA based on synthetic HCV peptides. Eight (53%) of the 15 patients negative by the Ortho ELISA tested positive for anti-HCV by ELISA based on HCV peptides. Serum HCV RNA was detected in all cases positive for antibody to the HCV peptide and in 14 (78%) of 18 cases without antibody. Thirty-seven hepatitis B virus carriers were without anti-HCV by the Ortho ELISA and were negative for serum HCV RNA, six (16%) of whom were positive by ELISA based on HCV peptides. Antibody responses were directed against each synthetic HCV peptide used, with a considerable difference in incidence, indicating possible expression of the corresponding region in the course of HCV propagation. These findings indicate that exposure to HCV may be more common than expected based on the results of the Ortho ELISA.     

Hepatitis C virus seroconversion rate in established blood donors

The results of hepatitis C virus (HCV) antibody test of 237, 813 blood donations collected from 143, 815 donors by the West Midlands Blood Transfusion Centre in 1993 were analyzed retrospectively in order to determine the seroconversion rate among established previously anti-HCV negative donors. Three hundred sixteen (0.22%; 1 in 455) donors were positive by the enzyme linked immunosorbent assay (ELISA) screening test and 34 (0.024%; 1 in 4, 230) donors were positive by ELISA and the Recombinant Immuno Blot Assay (RIBA). Three donors previously negative for HCV antibody reacted positively by both tests. The annual seroconversion rate was calculated as one in 35, 937 donors. This figure argues against limitation of HCV antibody screening to new blood donors. A further 45 donors negative on previous screening reacted positively by ELISA and were indeterminate by RIBA. Unexpectedly, lapsed blood donors first tested for HCV antibody in 1993 had high positive reaction rates by ELSA and RIBA, which was significantly (P < 0.001) higher than those of new donors. RIBA-positive reaction rate among ELISA-positive donors was significantly higher amongst males than females (P < 0.0011. © 1995 Wiley-Liss, Inc.     

Determination of hepatitis C virus genotypes among blood donors in Ahvaz,Iran

This study aims to determine the genotypes of hepatitis C virus (HCV) among blood donors at Ahvaz Blood Transfusion Centre. Blood samples were taken from 2376 blood donors -$$$ 1795 (75.54%) male and 581(24.45%) female -$$$ who referred to Ahvaz Blood Transfusion Centre during 2007-2008. Detection of anti-HCV antibody for all the donors was carried out by ELISA and the confirmatory RIBA tests. HCV RT-PCR followed by RFLP test was carried out for anti-HCV positive samples. Out of 2376 blood donors, only 55 (2.3%) male donors showed to be positive for HCV antibody by ELISA and RIBA tests out of which 45(1.8%) donors were positive for RT-PCR test. Female donors were negative for HCV antibody. The result of HCV genotyping by RFLP test showed 24 (53.3%) for 1a, 17 (37.7%) for 3a (α) and 4 (8.8%) for 3a (β) genotypes respectively. In conclusion, high prevalence of 53.3% HCV 1a genotype was observed among blood donors in Ahvaz city.     

Low prevalence of antibody to hepatitis C virus in north east England

The prevalence of antibodies to hepatitis C virus (anti-HCV) was studied in North East England in blood donors, local multiply transfused patients, local high risk individuals, and chronic liver disease patients. Anti-HCV was detected by enzyme-linked immunosorbent assay (ELISA) in 2/1120 (0.18%) blood donors; 1/84 chronic renal failure patients on haemodialysis who had received 1,992 units of blood (seroconversion rate of 0.05% per unit transfused), 1/207 cardiac patients 6 months post cardiac surgery transfused with 1,403 units of blood (1 anti-HCV pre-operatively, seroconversion rate 0.07%), 40/50 haemophilia A patients treated with commercial factor VIII, and 38/100 intravenous drug users. In addition anti-HCV was detected by ELISA in 5/35 cryptogenic chronic liver disease patients, 5/5 confirmed by recombinant immunoblot assay (RIBA) (14%); 3/30 patients with autoimmune chronic active hepatitis, 2/3 by RIBA (7%); 2/50 primary biliary cirrhosis patients, 1/2 by RIBA (2%); 0/30 alcoholic cirrhosis patients; and 2/9 patients with hepatocellular carcinoma, 1/2 by RIBA (11%). HCV is uncommon in North East England; it may be implicated in the aetiology of a minority of cases of cryptogenic liver disease and less than 5% of autoimmune chronic active hepatitis and primary biliary cirrhosis.     

Use of combined detection of hepatitis C virus core antigen and antibodies to reduce the serological window-phase

OBJECTIVES: In this study, we aimed at evaluating the performances of a combined assay for the detection of hepatitis C virus core antigen and antibodies and comparing this test with conventional third generation Elisa. MATERIAL AND METHODS: Two hundred forty-one samples were included in this study and tested by Monolisa HCV Ag-Ab ULTRA, Biorad and compared to Monolisa Anti-HCV Plus. A comparative study was performed on a HCV seroconversion panel (Monolisa anti-HCV Plus, Biorad; Innotest HCV Ab IV, Innogenetics and Murex anti-HCV, Abbott). False positive samples were detected with western blot assay (INNO-LIA HCV Ab III, Innogenetics). Two anti-HCV negative haemodialysis patients with rise in ALT have been tested for RNA detection (Amplicor v2.0, Roche). RESULTS: Results obtained with Biorad Ag-Ab were in agreement with third generation ELISA on HCV seroconversion panel. From anti-HCV negative patients, four samples were found low positive with HCV Ag-Ab. Two anti-HCV negative haemodialysis patients/HCV RNA positive were also negative with HCV Ag-Ab and 13 low positive samples with Biorad Ab were found negative with Ag-Ab. CONCLUSION: The HCV Ag-Ab assay has a high specificity and sensitivity comparatively to conventional ELISA; but in our study we don't prove the reduction of the "serologic window" for detection of anti-HCV antibodies.     

Transmission of hepatitis C virus by organ transplantation.

BACKGROUND. Liver disease is a frequent and major complication after organ transplantation. We sought to determine whether hepatitis C virus (HCV) is transmitted by organ transplantation and whether it causes post-transplantation liver disease. METHODS. Serum samples from all cadaver organ donors to the New England Organ Bank between 1986 and 1990 were screened retrospectively for antibodies to HCV (anti-HCV) by enzyme-linked immunosorbent assay (ELISA). We reviewed the hospital records of all recipients of organs from anti-HCV-positive donors for evidence of liver disease. Serum samples from recipients obtained before transplantation and during follow-up were analyzed for anti-HCV. RESULTS. Of 716 organ donors, 13 (1.8 percent) were positive for anti-HCV. Their organs (19 kidneys, 6 hearts, and 4 livers) went to 29 recipients. Non-A, non-B hepatitis developed after transplantation in 14 of the 29 (48 percent), for a prevalence 7.4 times the 6.5 percent prevalence after transplantation from untested donors that was previously reported by two institutions in the organ bank (P less than 0.0001). The liver disease began a mean of 3.8 months after transplantation and became chronic in 12 patients; the other 2 had subfulminant hepatic failure. Liver disease was more frequent in the patients who had received antilymphocyte preparations (P = 0.04). HCV was the cause of the post-transplantation liver disease in 12 of the 13 recipients (92 percent) for whom serum samples were available. Anti-HCV was detected by ELISA in eight and enzyme immunoassay in one; in three others, HCV RNA was detected by polymerase chain reaction in serum samples obtained after transplantation. CONCLUSIONS. Organ transplantation can transmit hepatitis C. This raises serious questions about the continued acceptance of organs from donors positive for anti-HCV.     

Automated RIBA Hepatitis C Virus (HCV) Strip Immunoblot Assay for Reproducible HCV Diagnosis

A comparison between the CHIRON RIBA hepatitis C virus (HCV) processor and manual systems was performed by using 88 specimens repeatedly reactive by the second-generation HCV enzyme-linked immunosorbent assay (ELISA) (HCV 2.0 ELISA) and 111 random specimens from volunteer donors. For the second-generation RIBA HCV strip immunoblot assay (SIA) (RIBA HCV 2.0 SIA), test results correlated strongly between the manual and the automated runs (kappa value, 0.937). For the RIBA HCV 3.0 SIA, the correlation of the test results was also high (kappa value, 0.899). Among the specimens with positive results by RIBA HCV 2.0 and 3.0 SIAs, there was a very strong concordance of the test results between the manual and the automated runs with regard to the reactive bands. Nine samples had discordant results between the manual and the automated runs; this was probably attributable to increased variability in antigen scores close to the cutoff values for both tests. Run-to-run and within-run testing by the CHIRON RIBA HCV Processor System showed a very low rate of conflicting values. In conclusion, the CHIRON RIBA HCV Processor System is capable of performing RIBA HCV 2.0 and 3.0 SIAs accurately with minimal operator involvement. In addition, the CHIRON RIBA HCV Processor System shows excellent reproducibility, with the potential for operator-to-operator and site-to-site variability being greatly reduced. Our data indicate that this novel methodology may be very useful for supplemental anti-HCV testing of specimens repeatedly reactive by ELISA in routine clinical assessments and epidemiologic evaluations.     

Study on reliability of commercially available hepatitis C virus antibody tests.

The serodiagnosis of hepatitis C virus (HCV) infection was analyzed by a recombinant immunoblot assay (RIBA) with recombinant proteins encoded by the viral RNA isolated from our patients in Hamburg, Germany. The HCV RNA was amplified by PCR, and proteins encoded by the viral core and the NS3, NS4, and NS5 regions were expressed subsequently in Escherichia coli. The results obtained with our UKE RIBA were compared with the results of the Abbott HCV second-generation enzyme immunoassay (EIA). Serum samples from 270 patients, which were sent to us on the suspicion of HCV hepatitis and which were negative for hepatitis A virus and hepatitis B virus antibodies, were examined. In 227 cases (84.1%), there were identical positive (204 cases, 75.6%) or negative (23 cases, 8.5%) results in both tests. In 32 cases (11.9%), the reactive Abbott second-generation HCV EIA results could not be confirmed by the UKE RIBA and the HCV PCR. In follow-up studies conducted over 1 year, these results did not change. In three cases (1.1%), the UKE RIBA presented a positive result while the Abbott second-generation HCV EIA was negative. All three cases were positive in the HCV PCR and showed seroconversion in an HCV EIA 4 to 6 weeks later. In addition, 33 patient serum samples were examined by UKE RIBA in parallel with the Ortho RIBA 2.0. In three cases (9.1%), a positive Ortho RIBA 2.0 result could not be confirmed by the UKE RIBA and the HCV PCR. All three patients were free of complaints. The UKE RIBA showed also a smaller number of indeterminate results (3.0%) than the Ortho RIBA 2.0 (24.2%). This comparison study demonstrates that the commercially available HCV antibody tests should be further improved.     

Hepatitis C virus infection among pregnant women in Yaounde,Cameroon: prevalence,viremia, and genotypes

Central Africa is considered to be an area of high endemic hepatitis C infection. To determine the prevalence of anti-HCV antibodies, HCV RNA, and the genotype distribution in Cameroon, 1,494 pregnant women attending antenatal care units in Yaounde, Cameroon were screened for HCV infection. Anti-HCV antibodies were detected with a 3rd generation ELISA (Monolisa anti-HCV plus version 2, BioRad, Richmond, CA). All anti-HCV antibody-positive sera were then tested with another 3rd generation ELISA (AxSYM) HCV version 3, Abbott Laboratories, Abbott Park, IL) and subsequently for HCV RNA (Amplicor HCV, Roche Diagnostics, Basel, Switzerland). Genotype was determined by phylogenetic analysis of the NS5b gene. Seventy-three pregnant women were found to be anti-HCV antibody positive by the first ELISA, but only 28 were anti-HCV positive by both ELISA. The prevalence of anti-HCV antibodies was thus 1.9% (28/1,494) (95% CI: 1.3-2.7%). 21/28 (75%) of the positive samples by both ELISA were HCV RNA positive. The 45 samples that were HCV antibody negative by the second ELISA were also HCV RNA negative. The HCV subtypes identified were 1a (24%), 2f (38%) and 4f (38%). In contrast to previous studies, anti-HCV antibodies were rare among pregnant women in Cameroon. The percentage of HCV seropositive pregnant women who had circulating HCV RNA was similar to that observed in Europe. Several HCV genotypes were found in Cameroon.     

Anti-HCV RIBA/LiaTek reactivity and HCV genotype in EIA-negative patients with viremia.

Individuals infected with hepatitis C virus (HCV) usually produce anti-HCV antibodies detectable by enzyme immunoassay (EIA); however, in certain viremic cases this antibody does not appear. To investigate whether anti-HCV in these cases is detectable by Western blot (WB), 38 HCV RNA positive/anti-HCV EIA-negative sera were tested by RIBA 3.0 or LiaTek III. The HCV genotypes (INNO-LiPA) were analyzed to determine whether the variance in these genotypes can be the reason for the late, weak antibody production or its absence. As the control group, 282 EIA-positive/HCV RNA-positive patients were examined. A single band reactivity of various intensities by RIBA or LiaTek was observed in 16/38 EIA negative sera. Positive results with NS3 were detected in 4 sera and weak positive (+/-) with core, NS3, and NS5 in 5, 6, and 1 sera, respectively. In 3 cases with anti-NS3, the seroreversion was observed in follow-up. The distribution of genotypes in anti-HCV-negative versus anti-HCV-positive groups was: 1b alone, 50.0% vs. 78.0%; 3a alone, 13.2% vs. 15.6%; and mixed (1b+3a), 36.8% vs. 5.0%, respectively. The follow-up studies showed that viremia was lost spontaneously in 12/35 patients. In some patients infected with two genotypes, the spontaneous loss of the 3a genotype was observed. The study showed that WB tests are useful for serological confirmation of HCV infection in some EIA negative/HCV RNA-positive patients but, because seroreversion may occur, sequential sera samples should be tested. No unusual HCV genotype was detected in anti-HCV-negative/HCV RNA-positive cases, but the frequency of mixed infection with the 1b+3a genotypes in this group was found to be higher than that in anti-HCV-positive hepatitis patients.     

Evaluation of performance of the RIBA processor system for automated analysis of the strip immunoblot assay for detection of antibodies to hepatitis C virus.

The performance of a new automated analyzer for the processing and interpretation of the RIBA Strip Immunoblot Assay (SIA), used in the diagnosis of hepatitis C virus (HCV) infection, was evaluated. Laboratory performance of the RIBA SIA was compared with that of two manually processed supplementary anti-HCV tests (RIBA HCV 3.0 SIA and INNO-LIA HCV Antibody III). Specificity of the automated processing of SIA was 100% for 90 selected anti-HCV-negative samples. On the other hand, 119 of 120 (99.2%) previously confirmed anti-HCV-positive samples were also positive when assayed on the automated processor. Results for all specimens except one (51 of 52) were concordant for manual and automated RIBA, while 15 of 68 sera tested with automated RIBA and the INNO-LIA assay showed different patterns of reactivity. Three HCV sensitivity panels and one seroconversion panel were also compared. The results show a high sensitivity for SIA NS3- and NS5-encoded antigens. Moreover, data obtained for the anti-HCV seroconversion panel and for samples with borderline or discordant anti-HCV enzyme-linked immunosorbent assay results suggest that bands with a relative intensity of >0.5 on the automated analyzer (theoretically negative) should be evaluated with care. Coefficients of variability ranged from 9 to 14.8% in an interassay reproducibility study. Overall, the performance of the automated analysis of SIA is comparable to that of the manual RIBA assay. The new automated processor for SIA bands proved to be sensitive and specific. Its use makes the optical scoring of bands unnecessary by indicating relative intensity values, which could be particularly useful in the follow-up care of anti-HCV-positive patients receiving antiviral therapy.     

聚合酶链反应鉴定丙型肝炎病毒母婴传播的状态及其…

采用多种方法,动态检测了１１例丙型肝炎病毒感的孕妇所生的婴儿血抗－ＨＣＶ和ＨＣＶＲＮＡ。发现用合成肽酶联免疫吸附试验检测婴儿抗－ＨＣＶ阳性率显著低于第二低重组抗原ＥＬＩＳＡ;用２ｎｄＥＬＩＳＡ检测,６例婴儿脐血和静脉血抗－ＨＣＶ阳性,５例持续１－５月阴转,１例阳性持续１３个月。