Journal article
Optimal Interruption of P. vivax Malaria Transmission Using Mass Drug Administration
MN Anwar, RI Hickson, S Mehra, DJ Price, JM McCaw, MB Flegg, JA Flegg
Bulletin of Mathematical Biology | Published : 2023
Abstract
Plasmodium vivax is the most geographically widespread malaria-causing parasite resulting in significant associated global morbidity and mortality. One of the factors driving this widespread phenomenon is the ability of the parasites to remain dormant in the liver. Known as ‘hypnozoites’, they reside in the liver following an initial exposure, before activating later to cause further infections, referred to as ‘relapses’. As around 79–96% of infections are attributed to relapses from activating hypnozoites, we expect it will be highly impactful to apply treatment to target the hypnozoite reservoir (i.e. the collection of dormant parasites) to eliminate P. vivax. Treatment with radical cure, ..
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Awarded by Centre of Excellence for Environmental Decisions, Australian Research Council
Funding Acknowledgements
Open Access funding enabled and organized by CAUL and its Member Institutions M.N. Anwar is supported by a Melbourne Research Scholarship. J.M. McCaw's research is supported by the Australian Research Council (DP170103076, DP210101920) and the NHMRC Australian Centre of Research Excellence in Malaria elimination (ACREME). J.A. Flegg's research is supported by the Australian Research Council (DP200100747, FT210100034).