Next-Generation Sequencing Methods for Sensitive Hepatitis B Viral Genome Analysis: A European Study

  1. Michael X. Fu
  2. Maria F. Perdomo
  3. Sheila F. Lumley
  4. Johan Ringlander
  5. Kai Kean
  6. Kaitlin Reid
  7. Richard Mayne
  8. Oscar Enrique Torres Montaguth
  9. Leysa Forrest
  10. Sarah Buddle
  11. Johannes C. Botha
  12. Joakim B. Stenbäck
  13. Zachery Dickson
  14. Chris Kent
  15. Haiting Chai
  16. Matthew Byott
  17. Leo Hannolainen
  18. Shannah Secret
  19. George Airey
  20. Klaus Hedman
  21. Monique I. Andersson
  22. M. Azim Ansari
  23. Eleni Nastouli
  24. Judith Breuer
  25. Philippa C. Matthews
  26. Tanya Golubchik
  27. William L. Irving
  28. Peter Simmonds
  29. Heli Harvala
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Abstract

Objectives

This multicentre study investigated the utility of next-generation sequencing (NGS) to detect and generate hepatitis B virus (HBV) genomes in samples of low viral load (from 0.2 to 6207 IU/ml).

Methods

23 HBV DNA positive plasma samples of genotypes A-E and one HBV-negative control sample were assayed blindly via 9 established NGS methods from 6 European laboratories. Methods included untargeted metagenomics, pre-enrichment by probe-capture followed by Illumina sequencing, and HBV-specific PCR pre-amplification followed by sequencing with Nanopore or Illumina.

Results

Full HBV genomes were obtained only from samples with viral loads >1000 IU/ml using probe-capture methods, >200 IU/ml using PCR-Illumina methods, >10 IU/ml using PCR-Nanopore methods, and in no samples using metagenomic methods. Contamination was observed in the negative control and samples with very low viral loads in all PCR-based methods. Probe-capture and metagenomic methods detected additional viruses not routinely screened in blood donations, including polyomaviruses and herpesviruses; positive results were confirmed by PCR.

Conclusions

NGS may delineate whole-genome sequences at low viral loads if supported by a PCR pre-amplification step. Probe-capture methods also reliably detect HBV without pre-amplification but achieve limited genome characterisation at low viral loads; they may additionally detect a wide range of blood-borne viruses.

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