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Malaria modeling can inform policy and guide research for malaria elimination and eradication from local implementation to global policy. A research and development agenda for malaria modeling is proposed, to support operations and to enhance the broader eradication research agenda. Models are envisioned as an integral part of research, planning, and evaluation, and modelers should ideally be integrated into multidisciplinary teams to update the models iteratively, communicate their appropriate use, and serve the needs of other research scientists, public health specialists, and government officials. A competitive and collaborative framework will result in policy recommendations from multiple, independently derived models and model systems that share harmonized databases. As planned, modeling results will be produced in five priority areas: (1) strategic planning to determine where and when resources should be optimally allocated to achieve eradication; (2) management plans to minimize the evolution of drug and pesticide resistance; (3) impact assessments of new and needed tools to interrupt transmission; (4) technical feasibility assessments to determine appropriate combinations of tools, an associated set of target intervention coverage levels, and the expected timelines for achieving a set of goals in different socio-ecological settings and different health systems; and (5) operational feasibility assessments to weigh the economic costs, capital investments, and human resource capacities required.

Original publication

DOI

10.1371/journal.pmed.1000403

Type

Journal article

Journal

PLoS Med

Publication Date

25/01/2011

Volume

8

Keywords

Animals, Anopheles, Carrier State, Databases, Factual, Drug Resistance, Feasibility Studies, Global Health, Health Policy, Humans, Insect Vectors, Insecticide Resistance, Internet, Malaria, Models, Theoretical, Mosquito Control, Planning Techniques, Plasmodium, Research, Resource Allocation, Socioeconomic Factors, User-Computer Interface