Examining the mechanisms and optimization of malaria chemoprevention strategies to improve birth outcomes in Africa

Reducing the global burden of low birthweight (LBW) remains a high priority for the World Health Organization (WHO). In Africa, malaria in pregnancy contributes to approximately 20% of LBW cases and affects nearly 12 million pregnancies every year. To curb the risk of malaria and LBW in Africa, the WHO recommends intermittent preventive treatment with sulfadoxine-pyrimethamine (IPTp with SP), a malaria chemoprevention strategy for pregnant women living in malaria-endemic settings. However, over the past two decades, widespread parasite resistance to SP has called for an urgent need to identify alternative antimalarials that could replace SP. While several antimalarials have been studied to date, the most promising candidate appears to be dihydroartemisinin-piperaquine (DP). Randomized controlled trials from this group and others have shown DP to be safe in pregnant women and far superior to SP in preventing malaria. Yet, these studies yield conflicting results on whether DP is superior to SP in preventing LBW. Mediation analyses conducted by the group confirm that the reason for this paradoxical finding is that SP, an antimalarial with known antibiotic and anti-inflammatory properties, improves LBW through mechanisms independent of its antimalarial activity (e.g., potentially through preventing sexually transmitted and reproductive tract infections, changing the gut or vaginal microbiome, and reducing maternal inflammation). Moreover, upon further investigation, the benefits of IPTp with either DP or SP appear to be context-specific, largely driven by the heterogeneity of the ‘non-malarial’ effects of SP between sites. Thus, in order to inform WHO on the optimal IPTp regimen, which may require a tailored approach for each setting, further evidence is needed to define the mechanisms driving the non-malarial effects of SP and for whom and where prevention of the malarial and ‘non-malarial’ mechanisms are most relevant. This research will leverage existing data from eight clinical trials conducted across ten study sites. The proposal will build on the applicant’s background in malaria, clinical trials, and epidemiology and include new training in: (1) the potential ‘non-malarial’ targets of SP affecting maternal and child health, (2) advanced computational statistics, (3) causal inference methods to target and tailor interventions. The training plan will be guided by an exemplary mentorship team who are experts in the field of causal inference, statistics, malaria, and maternal and child health. The combined research and training plan will competitively position the applicant for a successfully independent research career as an infectious disease epidemiologist focused on improving global maternal and child health policies.

NIH Project details

Drug-based Strategies
Modelling
Vulnerable Populations

Jul 2023 — Jun 2025

$122,904

United States