Quantifying the human toll of malaria cases and deaths each year is critical for understanding progress towards a malaria-free world. Mapping the landscape of malaria risk allows resources to be better targeted. Tracking malaria control efforts, and their impact, allow strategies to be reviewed and refined. But measuring malaria is not easy. Data can be sparse, incomplete, or unrepresentative, and have the potential to mislead as well as to inform. At MAP, we aim to combine the world’s malaria data with cutting-edge analytics so that we can generate the best possible information to help guide the fight against the disease.
We house the world’s largest malaria ...
We house the world’s largest malaria database, assembling millions of data elements each year from field surveys, scientific studies, and routine surveillance systems, augmented by relevant environmental and demographic data from many sources.
MAP is a network of researchers from across the world ...
MAP is a network of researchers from across the world and from diverse disciplinary backgrounds. We are epidemiologists, public health specialists, geographers, statisticians, and modelling experts. MAP members have also bring expertise in working within National Malaria Control Programs and endemic country research institutions.
We develop innovative analytical ...
We develop innovative analytical approaches to making sense of complex malaria data. We are leaders in geospatial analysis, spatial and spatiotemporal statistical methods, machine learning, and computational disease models.
Everything MAP does is geared around ...
Everything MAP does is geared around achieving impact. This only happens by engagement with those making the decisions that matter, including malaria policy makers, funders, and control program personnel.
We generate high-resolution maps of the malaria risk landscape at both ...
We generate high-resolution maps of the malaria risk landscape at both global and national levels – estimating infection prevalence, incidence rates, and mortality by pixel.
We estimate annual malaria cases and deaths in endemic countries – ...
We estimate annual malaria cases and deaths in endemic countries – measuring the burden of the disease and the direction of trends towards international targets.
We use statistical models to infer the impact that current control measures ...
We use statistical models to infer the impact that current control measures are having on malaria transmission and burden – this can inform refinement of control strategies
We provide tools for calculating malaria commodity needs, enabling countries ...
We provide tools for calculating malaria commodity needs, enabling countries to quantify the resources they need to protect their populations.
We track the coverage of malaria drugs, diagnostics, and vector control to ...
We track the coverage of malaria drugs, diagnostics, and vector control to understand which populations may be less well protected
We provide training, supervision, and mentorship to build skills in malaria ...
We provide training, supervision, and mentorship to build skills in malaria analytics
Since the year 2000, a concerted campaign against malaria has led to unprecedented levels of intervention coverage across sub-Saharan Africa
SEE PROJECTMosquito vector data are collected in a myriad of different ways by multiple data collectors for a wide variety of purposes.
SEE PROJECTNew research reveals a transformation of housing in sub-Saharan Africa, with the prevalence of improved housing doubling between 2000 and 2015.
SEE PROJECTWHO has approved and recommended the first malaria vaccine to be used for the prevention of P. falciparum malaria in children living in moderate to high transmission areas
SEE PROJECTThis is a collaborative project between the Tanzanian National Institute for Medical Research (NIMR), the National Malaria Control Program (NMCP) and MAP.
SEE PROJECTThis collaborative work between MAP, the Ifakara Health Institute (IHI) and the National Malaria Control Program (NMCP) in Tanzania
SEE PROJECTMAP is working in a collaborative partnership with the Zambia National Malaria Elimination Programme (NMEP) to provide broad ranging analytical support for malaria elimination in the country.
SEE PROJECTMAP is committed to playing a proactive role in contributing to enhanced research capacity and leadership in malaria endemic countries and to promote bilateral knowledge sharing.
SEE PROJECTThis project will support entomological data collection of essential information on An. Stephensi bionomics and its susceptibility to the available malaria vector control methods in Sudan.
SEE PROJECTAs many countries across meso-America come closer to elimination goals, understanding the transmission potential in areas where little to no transmission has occurred in the recent years becomes increasingly important to guide elimination and prevent local re-introduction of transmission
SEE PROJECTEnormous progress has been made in recent years in developing techniques for malaria genetic surveillance.
SEE PROJECTAs Southern Angola aims to scale up their application of IRS, a targeted approach will allow
for maximal impact.
MAP and researchers in India are embarking on a project to create improved maps and burden estimates for malaria
SEE PROJECTIn collaboration with Sudanese researchers and the Sudanese Ministry of Health, MAP created high-resolution maps and burden estimates of malaria burden in Sudan
SEE PROJECTMAP’s work on global drug and diagnostic use is supplemented by this project, done in partnership with the PMI:Insights consortium to answer case-management and commodity quantification questions raised by PMI teams based in Guinea, Mozambique, Uganda and Zambia.
SEE PROJECTMAP, in partnership with CHAI IVCC,Swiss TPH, MMV and RBM, has produced global forecasts of demand for important malaria commodities forward to 2031. MAP provided estimates of historical and projected need, demand and consumption of ITNs, RDTs and antimalarials including ACTs.
SEE PROJECTMAP produces high-resolution estimates of Plasmodium falciparum prevalence, incidence, and mortality.
SEE PROJECTMAP produces high-resolution maps and burden estimates for Plasmodium vivax.
SEE PROJECTSeasonal Malaria Chemoprevention (SMC) is the monthly administration of antimalarials sulfadoxine-pyrimethamine and amodiaquine (SP + AQ) to children at risk during a country’s peak malaria season.
SEE PROJECTIn this project, we generate high-resolution maps of the proportion of household sprayed with IRS annually across sub-Saharan Africa.
SEE PROJECTIn this study, we generate high-resolution maps of ITN access, use and nets-per-capita annually across the 40 highest-burden African countries.
SEE PROJECTIn this study, we generate high-resolution maps of ITN access, use, and nets-per-capita annually across the 40 highest-burden African countries.
SEE PROJECTSubstantial progress has been made in reducing the burden of malaria in Africa since 2000, but those gains were jeopardised by the COVID-19 pandemic
SEE PROJECTAccess to healthcare is a measure of human well-being that is constrained by numerous geographically-varying factors, the most immediate of which is the time it takes individuals to travel to a properly equipped and adequately staffed healthcare facility.
SEE PROJECT”High burden to high impact” is a country-led response – catalyzed by WHO and the RBM Partnership – to reignite the pace of progress in the global malaria fight.
SEE PROJECTMost malaria endemic countries experience seasonal variation in transmission.
SEE PROJECT