Abstract

The long-term project goal is to provide the evidence-base for the development of sustainable strategies to further reduce malaria transmission in southern Africa and assess the feasibility of malaria elimination through an integrated understanding of local malaria epidemiology, vector biology, parasite population structure and community and household-level beliefs and actions. Building upon the Johns Hopkins Malaria Research Institute field site in Choma District in rural southern Zambia as a regional center of excellence in malaria research, we propose to investigate the changing epidemiology of malaria in three distinct transmission settings in southern Africa reflecting different stages of malaria control (successful - Choma, ineffective - Nchelenge, resurgent - Mutasa) through prospective hospital, clinic and community-based studies to address the following:
Aim 1) Measure changes in spatio-temporal patterns of malaria parasitemia in three distinct epidemiological settings in southern Africa and identify individual, household and ecological risk factors for symptomatic and asymptomatic parasitemia in each setting;
Aim 2) Identify individual, household and ecological risk factors for gametocyte carriage during high and low transmission seasons in three distinct epidemiological settings in southern Africa;
Aim 3) Measure spatio-temporal changes in age specific antibody responses to Plasmodium falciparium antigens using sero-epidemiological surveys in the three regions of southern Africa;
Aim 4) Identify targeted, risk-based combinations of malaria control strategies that are cost-effective and acceptable to the community using mathematical modeling approaches to optimize decision algorithms based on locally available survey and surveillance data. Detailed understanding of malaria transmission dynamics in three different epidemiological settings will thus inform the development of locally-adapted, cost-effective and community-supported strategies for malaria control. These epidemiological investigations will be closely linked with studies of spatio-temporal changes in the anopheline vector and Plasmodium population structure in response to ecological changes and malaria control efforts. This integrated, evidence-based approach to malaria control will form the foundation for a regional center of excellence for malaria research in southern Africa and the foundation for regional malaria elimination.

Public Health Relevance

The burden of malaria has decreased dramatically in parts of sub-Saharan Africa within the past several years, raising the possibility of regional malaria elimination. Our research activities will provide the detailed knowledge of malaria transmission in southern Africa necessary to develop locally-adapted, targeted control strategies for the next stage of malaria control and possibly the regional elimination of malaria.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program--Cooperative Agreements (U19)
Project #
5U19AI089680-04
Application #
8503406
Study Section
Special Emphasis Panel (ZAI1-AWA-M)
Project Start
Project End
Budget Start
2013-07-01
Budget End
2014-06-30
Support Year
4
Fiscal Year
2013
Total Cost
$353,494
Indirect Cost
$35,287

  Institution

Name
Johns Hopkins University
Department
Type
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21218

  Publications

Kanyangarara, Mufaro; Hamapumbu, Harry; Mamini, Edmore et al. (2018) Malaria knowledge and bed net use in three transmission settings in southern Africa. Malar J 17:41
Zawada, Jacek W; Dahan-Moss, Yael L; Muleba, Mbanga et al. (2018) Molecular and physiological analysis of Anopheles funestus swarms in Nchelenge, Zambia. Malar J 17:49
Jones, Christine M; Lee, Yoosook; Kitchen, Andrew et al. (2018) Complete Anopheles funestus mitogenomes reveal an ancient history of mitochondrial lineages and their distribution in southern and central Africa. Sci Rep 8:9054
Pringle, Julia C; Carpi, Giovanna; Almagro-Garcia, Jacob et al. (2018) RTS,S/AS01 malaria vaccine mismatch observed among Plasmodium falciparum isolates from southern and central Africa and globally. Sci Rep 8:6622
Searle, Kelly M; Lubinda, Jailos; Hamapumbu, Harry et al. (2017) Characterizing and quantifying human movement patterns using GPS data loggers in an area approaching malaria elimination in rural southern Zambia. R Soc Open Sci 4:170046
Searle, Kelly M; Katowa, Ben; Kobayashi, Tamaki et al. (2017) Distinct parasite populations infect individuals identified through passive and active case detection in a region of declining malaria transmission in southern Zambia. Malar J 16:154
Gibson, Lauren E; Markwalter, Christine F; Kimmel, Danielle W et al. (2017) Plasmodium falciparum HRP2 ELISA for analysis of dried blood spot samples in rural Zambia. Malar J 16:350
Ippolito, Matthew M; Searle, Kelly M; Hamapumbu, Harry et al. (2017) House Structure Is Associated with Plasmodium falciparum Infection in a Low-Transmission Setting in Southern Zambia. Am J Trop Med Hyg 97:1561-1567
Sutcliffe, Catherine G; Searle, Kelly; Matakala, Hellen K et al. (2017) Measles and Rubella Seroprevalence Among HIV-infected and Uninfected Zambian Youth. Pediatr Infect Dis J 36:301-306
Das, Smita; Muleba, Mbanga; Stevenson, Jennifer C et al. (2017) Beyond the entomological inoculation rate: characterizing multiple blood feeding behavior and Plasmodium falciparum multiplicity of infection in Anopheles mosquitoes in northern Zambia. Parasit Vectors 10:45

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