Last Updated: 15/06/2026

Deciphering Residual Malaria Mechanisms in the Peruvian Amazon to Inform Novel and Effective Control Strategies

Objectives

The main goal is to characterize a wide range of sociodemographic, behavioral, and environmental factors that, in addition to human genetics, contribute to individual risk of malaria (re)infection and disease in the Amazon. 

In particular, the project aims to:

  • Estimate the relative contribution of genetic and nongenetic (potentially modifiable) factors to individual malaria risk variation and identify risk profiles in populations from residual malaria settings in Peru.
  • Apply network analysis to analyze the interconnectedness of malaria parasite carriers between remote and more proximal sites.
  • Track malaria transmission trends and identify hotspots in remote indigenous populations in Peru by applying field-deployable molecular diagnosis and modeling sequential antibody measurements.
Principal Institution

Yale University, United States

Principal Investigators / Focal Persons

Joseph M. Vinetz
Dionicia Gamboa

Partner Institutions

Cayetano Heredia University (UPCH), Peru
Harvard T.H. Chan School of Public Health (HSPH), United States
Temple University, United States

Partner Investigators

Katherine Torres Fajardo
Marcia C. Castro
Ananias Alberto Escalante
Luis Cabrera Sosa
Elizabeth Villasis Mayuri

Rationale and Abstract

The Peru Amazon region of Loreto (capital, Iquitos) accounts for 95% of all malaria in Peru, and ranks as contributing to ~25% of all malaria cases in the Americas. Peru has repeatedly launched elimination plans, most recently in 2022, based on case-finding strategies, field-deployable molecular diagnosis, and vector control measures conceived within the previously funded, NIAID-supported, Amazonian ICEMR network. Two contexts remain a challenge to achieve malaria elimination goals: (i) residual malaria transmission with sustained hypoendemicity despite the use of currently available interventions, and (ii) focal hyperendemic transmission in hard-to-reach Indigenous populations. This proposal focuses on residual urban and close-by and remote riverine transmission areas with increasing proportions of asymptomatic cases, regardless of age. Malaria transmission in these remote areas remains high and difficult to control, and the past two years have seen important rises in malaria cases. 

This project will advance knowledge on individual malaria risk profiles and the impact of targeted interventions in residual malaria contexts. It will also characterize malaria transmission in hard-to-reach areas where the malaria burden is poorly understood and mitigated. Collectively, this study will make significant contributions by integrating and translating diverse data and analytic frameworks into actionable knowledge and evidence to support tailored malaria elimination efforts in Peru, elsewhere in South America, and similar contexts in the world beyond, including the protection of United States domestic and military interests.

External reference

NIH Project details

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Related Resources

National Malaria Elimination Strategic Plan (NMESP) of Peru: 2022 – 2030
Guidance & Strategy
MESA FORUM: Responding to the threat of malaria parasites evading HRP2-RDTs
Multimedia
WHO: Control of disease vectors with indoor residual spraying
Multimedia

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