The polymerase chain reaction and hepatitis C virus diagnosis

Abstract

In the absence of tissue culture, electron microscopy or assays for viral antigen, the direct detection of hepatitis C virus (HCV) is by necessity dependent upon nucleic acid hybridisation methods. Of the available methods, amplification of HCV cDNA by polymerase chain reaction (PCR) commends itself by virtue of its extreme sensitivity and its consequent ability to detect the very low levels of HCV-RNA that are present in many clinical samples. In this review the development and evolution of PCR techniques for HCV detection are described and a number of clinical applications are considered in detail. The application include diagnosis of acute infection during the seronegative window period prior to the appearance of HCV antibodies, and diagnosis of HCV infection in the immunosuppressed. PCR also enables identification of chronic viraemic carrier state and it permits accurate monitoring of the antiviral effects of drugs such as interferon. Confirmation of the specificity HCV antibody assays and detection of HCV contamination of blood donations and blood products are other important areas in which PCR techniques have proved invaluable. In addition, PCR-based techniques underlie an increasing number of molecular epidemiological and genotyping studies and they are providing insights into the details of HCV cellular tropism and replication. A number of logistic problems and operational difficulties are also discussed. Despite these limitations it is concluded that PCR will continue to make significant contributions to both clinical practice and to our understanding of the basic biology of HCV infection.