Publication | Open Access
In Vitro Confirmation of Artemisinin Resistance in <i>Plasmodium falciparum</i> from Patient Isolates, Southern Rwanda, 2019
32
Citations
11
References
2022
Year
Antiparasitic AgentGeneticsMalariaArtemisinin ResistancePlasmodium FalciparumParasite GenomicsDrug ResistanceDisease ResistanceSouthern RwandaVitro ConfirmationResistance Mutation (Virology)Antimicrobial ResistanceParasitologyPharmacologyKelch 13PathogenesisParasite ControlMicrobiologyHost ResistanceMedicine
Artemisinin resistance in Plasmodium falciparum is conferred by mutations in the kelch 13 (K13) gene. In Rwanda, K13 mutations have increased over the past decade, including mutations associated with delayed parasite clearance. We document artemisinin resistance in P. falciparum patient isolates from Rwanda carrying K13 R561H, A675V, and C469F mutations.
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