Scientific Reports (Feb 2018)

Development and performance of prototype serologic and molecular tests for hepatitis delta infection

  • Kelly E. Coller,
  • Emily K. Butler,
  • Ka-Cheung Luk,
  • Mary A. Rodgers,
  • Michael Cassidy,
  • Jeffrey Gersch,
  • Anne L. McNamara,
  • Mary C. Kuhns,
  • George J. Dawson,
  • Lazare Kaptue,
  • Birgit Bremer,
  • Heiner Wedemeyer,
  • Gavin A. Cloherty

DOI
https://doi.org/10.1038/s41598-018-20455-5
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 11

Abstract

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Abstract Worldwide, an estimated 5% of hepatitis B virus (HBV) infected people are coinfected with hepatitis delta virus (HDV). HDV infection leads to increased mortality over HBV mono-infection, yet HDV diagnostics are not widely available. Prototype molecular (RNA) and serologic (IgG) assays were developed for high-throughput testing on the Abbott m2000 and ARCHITECT systems, respectively. RNA detection was achieved through amplification of a ribozyme region target, with a limit of detection of 5 IU/ml. The prototype serology assay (IgG) was developed using peptides derived from HDV large antigen (HDAg), and linear epitopes were further identified by peptide scan. Specificity of an HBV negative population was 100% for both assays. A panel of 145 HBsAg positive samples from Cameroon with unknown HDV status was tested using both assays: 16 (11.0%) had detectable HDV RNA, and 23 (15.7%) were sero-positive including the 16 HDV RNA positive samples. Additionally, an archival serial bleed panel from an HDV superinfected chimpanzee was tested with both prototypes; data was consistent with historic testing data using a commercial total anti-Delta test. Overall, the two prototype assays provide sensitive and specific methods for HDV detection using high throughput automated platforms, allowing opportunity for improved diagnosis of HDV infected patients.