Litcius/Paper detail

Individual variation in Plasmodium vivax malaria risk: Are repeatedly infected people just unlucky?

Rodrigo M. Corder, Ana Paula Arez, Marcelo U. Ferreira

2023PLoS neglected tropical diseases13 citationsDOIOpen Access PDF

Abstract

Extensive research has examined why some people have frequent Plasmodium falciparum malaria episodes in sub-Saharan Africa while others remain free of disease most of the time. In contrast, malaria risk heterogeneity remains little studied in regions where P. vivax is the dominant species. Are repeatedly infected people in vivax malaria settings such as the Amazon just unlucky? Here, we briefly review evidence that human genetic polymorphism and acquired immunity after repeated exposure to parasites can modulate the risk of P. vivax infection and disease in predictable ways. One-fifth of the hosts account for 80% or more of the community-wide vivax malaria burden and contribute disproportionally to onward transmission, representing a priority target of more intensive interventions to achieve malaria elimination. Importantly, high-risk individuals eventually develop clinical immunity, even in areas with very low or residual malaria transmission, and may constitute a large but silent parasite reservoir.

Topics & Concepts

MalariaPlasmodium vivaxTransmission (telecommunications)Plasmodium falciparumBiologyImmunologyDiseaseImmunityVirologyPlasmodium (life cycle)Environmental healthMedicineParasite hostingImmune systemEngineeringWorld Wide WebComputer sciencePathologyElectrical engineeringMalaria Research and ControlMosquito-borne diseases and controlComplement system in diseases