Microhaplotype deep sequencing assays to capture Plasmodium vivax infection lineages.
Kleinecke M., Sutanto E., Rumaseb A., Hoon KS., Trimarsanto H., Osborne A., Manrique P., Peters T., Hawkes D., Benavente ED., Whitton G., Siegel SV., Pearson RD., Amato R., Rai A., Nhien NTT., Nguyen HC., Assefa A., Degaga TS., Abate DT., Rahim AG., Pasaribu AP., Sutanto I., Alam MS., Pava Z., Lopera-Mesa T., Echeverry D., William T., Anstey NM., Grigg MJ., Day NP., White NJ., Kwiatkowski DP., Taylor AR., Noviyanti R., Neafsey D., Price RN., Auburn S.
Plasmodium vivax elimination is challenged by dormant liver stages (hypnozoites) that can reactivate months after initial infection resulting in relapses. Relapsing infections confound antimalarial clinical efficacy trials due to the inability to distinguish between recurrences arising from blood-stage treatment failure (recrudescence), reinfection or relapse. Genetic relatedness of paired parasite isolates, measured by identity-by-descent (IBD), can provide important information on whether individuals have had single or multiple mosquito inoculations, thus informing on recurrence origin. We developed a high-throughput amplicon sequencing assay comprising 93 multi-SNP (microhaplotype) markers to determine IBD between P. vivax clinical isolates. The assay was evaluated in 745 global infections, including 128 infection pairs from a randomized controlled trial (RCT) (ClinicalTrials.gov NCT01680406). Simulations demonstrate low error in pairwise IBD estimation at the panel (RMSE