SwabExpress: An end-to-end protocol for extraction-free COVID-19 testing

  1. Sanjay Srivatsan
  2. Sarah Heidl
  3. Brian Pfau
  4. Beth K. Martin
  5. Peter D. Han
  6. Weizhi Zhong
  7. Katrina van Raay
  8. Evan McDermot
  9. Jordan Opsahl
  10. Luis Gamboa
  11. Nahum Smith
  12. Melissa Truong
  13. Shari Cho
  14. Kaitlyn A. Barrow
  15. Lucille M. Rich
  16. Jeremy Stone
  17. Caitlin R. Wolf
  18. Denise J. McCulloch
  19. Ashley E. Kim
  20. Elisabeth Brandstetter
  21. Sarah L. Sohlberg
  22. Misja Ilcisin
  23. Rachel E. Geyer
  24. Wei Chen
  25. Jase Gehring
  26. Seattle Flu Study Investigators
  27. Sriram Kosuri
  28. Trevor Bedford
  29. Mark J. Rieder
  30. Deborah A. Nickerson
  31. Helen Y. Chu
  32. Eric Q. Konnick
  33. Jason S. Debley
  34. Jay Shendure
  35. Christina M. Lockwood
  36. Lea M. Starita
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Abstract

Background

The urgent need for massively scaled clinical testing for SARS-CoV-2, along with global shortages of critical reagents and supplies, has necessitated development of streamlined laboratory testing protocols. Conventional nucleic acid testing for SARS-CoV-2 involves collection of a clinical specimen with a nasopharyngeal swab in transport medium, nucleic acid extraction, and quantitative reverse transcription PCR (RT-qPCR) (1). As testing has scaled across the world, the global supply chain has buckled, rendering testing reagents and materials scarce (2). To address shortages, we developed SwabExpress, an end-to-end protocol developed to employ mass produced anterior nares swabs and bypass the requirement for transport media and nucleic acid extraction.

Methods

We evaluated anterior nares swabs, transported dry and eluted in low-TE buffer as a direct-to-RT-qPCR alternative to extraction-dependent viral transport media. We validated our protocol of using heat treatment for viral activation and added a proteinase K digestion step to reduce amplification interference. We tested this protocol across archived and prospectively collected swab specimens to fine-tune test performance.

Results

After optimization, SwabExpress has a low limit of detection at 2-4 molecules/uL, 100% sensitivity, and 99.4% specificity when compared side-by-side with a traditional RT-qPCR protocol employing extraction. On real-world specimens, SwabExpress outperforms an automated extraction system while simultaneously reducing cost and hands-on time.

Conclusion

SwabExpress is a simplified workflow that facilitates scaled testing for COVID-19 without sacrificing test performance. It may serve as a template for the simplification of PCR-based clinical laboratory tests, particularly in times of critical shortages during pandemics.

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