Author information
1Department of Laboratory Medicine and Pathology, HealthPartners, Minneapolis, Minnesota, USA.
2Core Diagnostics, Abbott Laboratories, Abbott Park, Illinois, USA.
Abstract
The prevalence of hepatitis C virus (HCV) infection in the United States has increased over the past decade despite the development of effective direct-acting antiviral treatments. To meet the World Health Organization's (WHO) goal of eliminating HCV infection by 2030, transmission events must be reduced. Currently, infection screening relies on detection of HCV antibodies, with nucleic acid amplification testing (NAAT) used to confirm HCV viremia and monitor changes in viral load. However, the seroconversion window for detection of HCV antibodies is long, averaging 6 weeks, with delayed seroconversion common in co-infected and immunosuppressed populations. Testing for HCV core antigen, which is present approximately 5 weeks before HCV antibodies, holds promise for earlier detection of HCV infection. It may also hold promise as a cheaper, more accessible, and more rapid alternative to NAAT for infection confirmation. Here, we evaluated the agreement between a research-use HCV Core Antigen Assay and NAAT among US patients receiving clinically indicated NAAT. Among 412 specimens, the overall concordance was 97.1%, with a positive percent agreement of 95.5%. Discrepancies primarily occurred among patients with chronic HCV and low viral loads; 11/12 discrepancies showed viral loads <4,000 IU/mL. Among patients being screened for HCV infection (i.e., excluding those undergoing NAAT for serial monitoring of a previously diagnosed infection), the positive percent agreement was 97.0%. Among patients undergoing serial testing, changes in HCV Core Antigen Assay signal-to-cut-off values were generally correlated with changes in the viral load. Results suggest that the research-use HCV Core Antigen Assay studied here may reliably detect and/or confirm HCV infection.
Importance: A research-use HCV Core Antigen Assay showed high concordance with nucleic acid amplification testing for the detection of current hepatitis C infection. The assay may enable more rapid and lower-cost detection and/or confirmation of hepatitis C infection.