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Project Details

Early Career

Status: Funded - Open


Evolution and spread of pfhrp2-deleted Plasmodium falciparum in the Democratic Republic of the Congo

Jonathan Parr, MD, MPH

Summary

BACKGROUND: Malaria killed over 300,000 children under 5 years of age in 2015, with 97% of these deaths occurring in sub-Saharan Africa. One of the cornerstones of modern malaria programs is the use of rapid diagnostic tests (RDTs) instead of traditional microscopy for diagnosis. Recently, false-negative RDT results have been reported in individuals infected with Plasmodium falciparum parasites harboring a deletion of the the pfhrp2 gene.

GAP: It is unknown whether this mutation is evolving and spreading within communities in sub-Saharan Africa.

HYPOTHESIS: Use of RDTs as indicators for treatment is exerting evolutionary pressure favoring the spread of “stealth” parasites, resistant to detection by currently used RDTs.

METHODS: We will perform whole-genome sequencing on pfhrp2-deleted parasites identified among children in a region of the Democratic Republic of the Congo with a high prevalence of deletions. We will use these results to look for evidence of evolutionary selection.

RESULTS: Pending

IMPACT: Analysis of these pfhrp2-deleted parasite genomes will provide important information regarding the evolution of these mutations and their transmission within affected communities. Evidence confirming the recent development and spread of pfhrp2-deleted parasites among African children would have immediate policy implications for malaria diagnosis and surveillance.










Supervising Institution:
University of North Carolina

Mentor(s):
Steven Meshnick

Project Location:
United States, Democratic Republic of Congo

Award Amount:
$26,750

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