Scientific Reports (Aug 2024)

A Pan Plasmodium lateral flow recombinase polymerase amplification assay for monitoring malaria parasites in vectors and human populations

  • Matthew Higgins,
  • Mojca Kristan,
  • Emma L. Collins,
  • Louisa A. Messenger,
  • Jamille G. Dombrowski,
  • Leen N. Vanheer,
  • Debbie Nolder,
  • Christopher J. Drakeley,
  • William Stone,
  • Almahamoudou Mahamar,
  • Teun Bousema,
  • Michael Delves,
  • Janvier Bandibabone,
  • Sévérin N’Do,
  • Chimanuka Bantuzeko,
  • Bertin Zawadi,
  • Thomas Walker,
  • Colin J. Sutherland,
  • Claudio R. F. Marinho,
  • Mary M. Cameron,
  • Taane G. Clark,
  • Susana Campino

DOI
https://doi.org/10.1038/s41598-024-71129-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Robust diagnostic tools and surveillance are crucial for malaria control and elimination efforts. Malaria caused by neglected Plasmodium parasites is often underestimated due to the lack of rapid diagnostic tools that can accurately detect these species. While nucleic-acid amplification technologies stand out as the most sensitive methods for detecting and confirming Plasmodium species, their implementation in resource-constrained settings poses significant challenges. Here, we present a Pan Plasmodium recombinase polymerase amplification lateral flow (RPA–LF) assay, capable of detecting all six human infecting Plasmodium species in low resource settings. The Pan Plasmodium RPA-LF assay successfully detected low density clinical infections with a preliminary limit of detection between 10–100 fg/µl for P. falciparum. When combined with crude nucleic acid extraction, the assay can serve as a point-of-need tool for molecular xenomonitoring. This utility was demonstrated by screening laboratory-reared Anopheles stephensi mosquitoes fed with Plasmodium-infected blood, as well as field samples of An. funestus s.l. and An. gambiae s.l. collected from central Africa. Overall, our proof-of-concept Pan Plasmodium diagnostic tool has the potential to be applied for clinical and xenomonitoring field surveillance, and after further evaluation, could become an essential tool to assist malaria control and elimination.