Affiliation:
1. Hepatitis C Project, Egypt, International Health Division, University of Maryland School of Medicine, Baltimore, Maryland 21201
2. Minia University, Minia,
3. National Liver Institute, Menoufiya
4. Assiut University, Assiut, Egypt
Abstract
ABSTRACT
Supplemental assays, such as recombinant immunoblot assays (RIBA), are used to confirm detection of antibodies to hepatitis C virus (HCV). However, due to their expense, they are not widely used in developing countries. The purpose of our study was to compare the results of second- and third-generation (G2 and G3, respectively) enzyme immunoassays (EIAs) and to resolve discordant results by using a supplemental assay to assess the reliability of G2 and G3 EIAs to confirm anti-HCV antibody-positive results. We performed both G2 and G3 EIAs for anti-HCV antibodies on 1,134 serum samples collected during the 2nd year of a longitudinal community-based study in Egypt; 35 samples with discordant results were tested by Abbott Laboratories Micro-Particle Immunoassay (M-EIA) and RIBA. Viremia was determined with an in-house nested reverse transcriptase PCR (RT-PCR) to detect HCV RNA. Concordance between the two assays (G2/G3) was 96.9%; 87 (7.7%) samples were positive and 1,012 (89.2%) were negative by both assays. For 17 samples, the discordant results were G2 assay negative and G3 assay positive, and for 18 samples, the discordant results were G2 assay positive and G3 assay negative. Among the 17 G2 assay-negative and G3 assay-positive samples, 15 were M-EIA positive and 7 were PCR positive. Among the 18 G2 assay-positive and G3 assay-negative samples, 2 were M-EIA positive and none were PCR positive. RIBA results from 24 discordant samples showed 87.5% agreement with the G3 EIA, 12.5% agreement with the G2 EIA, and 95.8% agreement with M-EIA. Eleven samples were indeterminate by RIBA and excluded from this analysis. Based on RIBA results, the sensitivity of the G3 EIA was 99%, compared to 89.8% for the G2 EIA, while the specificity of the G3 EIA was 99.8%, compared to 98.9% for the G2 EIA. These results show that the reliability of the G3 EIA in screening these sera is excellent, and the G3 assay can be used in the absence of supplemental tests where resources are limited. RIBA appears not to have advantages over the less expensive M-EIA screening assay. The main disadvantage of RIBA is the occurrence of indeterminate results, especially among problematic samples. Samples giving discordant results in multiple assays are often indeterminate with the RIBA.
Publisher
American Society for Microbiology
Reference16 articles.
1. Abdel-Hamid, M., D. C. Edelman, W. E. Highsmith, and N. T. Constantine. 1997. Optimization, assessment, and proposed use of a direct nested reverse transcription-polymerase chain reaction protocol for the detection of hepatitis C virus. J. Hum. Virol.1:58-65.
2. Alter, H. J. 1992. New kit on the block: evaluation of second-generation assays for detection of antibody to the hepatitis C virus. Hepatology15:350-353.
3. Anonymous. 1999. EASL International Consensus. Conference on Hepatitis C. Paris, 26-27 February 1999. Consensus statement. J. Hepatol.31(Suppl. 1):3-8.
4. Baath, L., A. Widell, and E. Nordenfelt. 1992. A comparison between one first generation and three second generation anti-HCV ELISAs: an investigation in high- and low-risk subjects in correlation with recombinant immunoblot assay and polymerase chain reaction. J. Virol. Methods40:287-296.
5. Bansal, J., N. T. Constantine, X. Zhang, J. D. Callahan, V. C. Marsiglia, and K. C. Hyams. 1993. Evaluation of five hepatitis C virus screening tests and two supplemental assays: performance when testing sera from sexually transmitted diseases clinic attendees in the USA. Clin. Diagn. Virol.1:113-121.
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