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Modeling resource allocation strategies for insecticide-treated bed nets to achieve malaria eradication.


ABSTRACT: Large reductions in the global malaria burden have been achieved, but plateauing funding poses a challenge for progressing towards the ultimate goal of malaria eradication. Using previously published mathematical models of Plasmodium falciparum and Plasmodium vivax transmission incorporating insecticide-treated nets (ITNs) as an illustrative intervention, we sought to identify the global funding allocation that maximized impact under defined objectives and across a range of global funding budgets. The optimal strategy for case reduction mirrored an allocation framework that prioritizes funding for high-transmission settings, resulting in total case reductions of 76% and 66% at intermediate budget levels, respectively. Allocation strategies that had the greatest impact on case reductions were associated with lesser near-term impacts on the global population at risk. The optimal funding distribution prioritized high ITN coverage in high-transmission settings endemic for P. falciparum only, while maintaining lower levels in low-transmission settings. However, at high budgets, 62% of funding was targeted to low-transmission settings co-endemic for P. falciparum and P. vivax. These results support current global strategies to prioritize funding to high-burden P. falciparum-endemic settings in sub-Saharan Africa to minimize clinical malaria burden and progress towards elimination, but highlight a trade-off with 'shrinking the map' through a focus on near-elimination settings and addressing the burden of P. vivax.

SUBMITTER: Schmit N 

PROVIDER: S-EPMC10957170 | biostudies-literature | 2024 Feb

REPOSITORIES: biostudies-literature

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Modeling resource allocation strategies for insecticide-treated bed nets to achieve malaria eradication.

Schmit Nora N   Topazian Hillary M HM   Pianella Matteo M   Charles Giovanni D GD   Winskill Peter P   White Michael T MT   Hauck Katharina K   Ghani Azra C AC  

eLife 20240208


Large reductions in the global malaria burden have been achieved, but plateauing funding poses a challenge for progressing towards the ultimate goal of malaria eradication. Using previously published mathematical models of <i>Plasmodium falciparum</i> and <i>Plasmodium vivax</i> transmission incorporating insecticide-treated nets (ITNs) as an illustrative intervention, we sought to identify the global funding allocation that maximized impact under defined objectives and across a range of global  ...[more]

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