Virology Journal (Aug 2024)

Use of strips of rapid diagnostic tests as a source of ribonucleic acid for genomic surveillance of viruses: an example of SARS-CoV-2

  • Alpha Kabiné Keita,
  • Aminata Mbaye,
  • Abdoul Karim Soumah,
  • Kadio Jean Jacques Olivier Kadio,
  • Haby Diallo,
  • Thibaut Armel Chérif Gnimadi,
  • Joel Balla Koivogui,
  • Moriba Kowa Povogui,
  • Jean Louis Monemou,
  • Baba Traore,
  • Nicole Vidal,
  • Emilande Guichet,
  • Ahidjo Ayouba,
  • Eric Delaporte,
  • Martine Peeters,
  • Abdoulaye Toure,
  • Alpha Kabinet Keita,
  • AFROSCREEN Team

DOI
https://doi.org/10.1186/s12985-024-02442-7
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 9

Abstract

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Abstract Background This study aimed to demonstrate that the genomic material of SARS-CoV-2 can be isolated from strips of COVID-19 rapid diagnostic test cassettes. Method It was a prospective cross-sectional study involving patients admitted to treatment centers and sampling sites in the city of Conakry, Guinea. A total of 121 patients were double sampled, and 9 more patients were tested only for RDT. PCR was conducted according to the protocol of the RunMei kit. Sequencing was performed by using the illumina COVIDSeq protocol. Nine COVID-19 RDTs without nasopharyngeal swabs were in addition tested. Result Among the 130 COVID-19 RDTs, forty-seven were macroscopically positive, whereas seventy-two were positive according to PCR using RDT strip, while among the 121 VTM swabs, sixty-four were positive. Among eighty-three negative COVID-19 RDTs, twenty-seven were positive by PCR using RDT strip with a geometric mean Ct value of 32.49 cycles. Compared to those of PCR using VTM, the sensitivity and specificity of PCR using RDT strip were estimated to be 100% and 85.96%, respectively, with 93.39% test accuracy. Among the fifteen COVID-19 RDT extracts eligible for sequencing, eleven had sequences identical to those obtained via the standard method, with coverage between 75 and 99.6%. Conclusion These results show that COVID-19 RDTs can be used as biological material for the genomic surveillance of SARS-CoV-2.

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