Efficacy and Safety of IPTp-DP Versus IPTp-SP in Malawi (STOPMIP-MW)

Problem to be studied Malaria in pregnancy (MiP) due to Plasmodium falciparum infection is a major cause of maternal morbidity and poor birth outcomes in malaria-endemic countries. Pregnant women are at increased risk of more frequent and severe malaria infections than non-pregnant women. Intermittent preventive treatment in pregnancy (IPTp) with sulfadoxine-pyrimethamine (SP), which involves administration of treatment doses of SP at each antenatal visit in the second and third trimesters of pregnancy, at least one month apart, irrespective of malaria parasitemia, is currently recommended for all women, except HIV positive women taking daily cotrimoxazole prophylaxis, in areas with stable moderate to high transmission of malaria.

SP is the only drug currently used for IPTp. Due to increasing resistance to SP, it is no longer used as a treatment for symptomatic malaria, however, IPTp-SP remains effective even in areas where SP resistance in children under five (determined by in vivo efficacy studies) is up to 26%, and continues to be used for IPTp in countries where SP is no longer recommended to treat symptomatic malaria. However, IPTp-SP has become more controversial given recent data from northern Tanzania and Malawi that have demonstrated that at higher rates of resistance, IPTp-SP may no longer be effective.

Alternative drugs which could replace SP have been tested; mefloquine, azithromycin-chloroquine, and amodiaquine have been abandoned as options due to poor tolerability among pregnant women. Dihydroartemisinin-Piperaquine (DP) remains an attractive option because of the long half-life of piperaquine (PQ) and the demonstrated efficacy, safety, and tolerability in pregnancy. Recent studies in Kenya and Uganda using DP for IPTp demonstrated a significant reduction in the prevalence of malaria throughout pregnancy and at the time of delivery. However, there was not a clear benefit in terms of improved neonatal outcomes. Additional studies are therefore needed to determine the impact of switching from IPTp-SP to IPTp-DP.

Study aims Primary objectives To compare the efficacy of monthly IPTp-DP with monthly IPTp-SP to determine if IPTp-DP is associated with a reduction in malaria infection at delivery among HIV-negative women in an area with high levels of SP resistance in Malawi.

Secondary objectives

• To determine if IPTp-DP results in decreased fetal morbidity compared with IPTp-SP, where fetal morbidity is defined as the composite of any of the following: Preterm birth (< 37 weeks gestation), low birth weight (LBW) (< 2,500 grams), or small for gestational age (SGA).
• To evaluate the tolerability and safety of IPTp-DP in the second and third trimesters of pregnancy, including an assessment of cardiac risk, as measured by changes in QTc intervals from baseline with each successive dose.
• To compare the frequency of adverse events and fetal congenital malformations in IPTp-DP with IPTp-SP.
• To assess how SP and DP affect the maternal intestinal and vaginal microbiome.

Methodology Open-label, 2 arm randomized controlled superiority trial to compare the efficacy and safety of IPTp-DP to IPTp-SP in Malawi. The trial is designed to show a 60% decrease in malaria infection at delivery among HIV-negative women of all gravidity when IPTp-DP is used instead of IPTp-SP.

Expected findings and dissemination It is expected that in areas of high SP resistance, IPTp-DP will be superior to IPTp-SP in decreasing malaria infection at delivery. In addition, it is anticipated that DP will be well-tolerated among pregnant women and that fetal outcomes will be better than IPTp-SP.