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NCT06601712
The proposed research aims to conduct implementation trials in Benin, co-designed with national stakeholders, to evaluate different delivery strategies for optimizing health system delivery of post-discharge malaria chemoprevention (PDMC) drugs and adherence to PDMC. This chemoprevention strategy is effective in reducing hospital readmissions and deaths after discharge. However, there is no clear delivery platform for PDMC, and adherence to the 3-day dosing regimen, provided monthly three times after discharge, is a potential limitation. The current trial will provide evidence-based data on acceptability, feasibility, and cost-effectiveness to aid decision-makers. The evidence generated will be used to support the effective implementation and scale-up of PDMC in high malaria-endemic areas such as Benin.
NCT07082205
Background and rationale: Hospitalised children with severe anaemia remain at high risk of dying or requiring hospital readmission for at least 6 months after discharge. In highly malaria-endemic settings, malaria is a major contributor to these post-discharge readmissions and deaths. In 2022, the World Health Organisation (WHO) recommended post-discharge malaria chemoprevention (PDMC) for children hospitalised with severe anaemia living in malarious areas. Kenya, together with several other countries in sub-Saharan Africa, aims to expand WHO's recommendation and introduce PDMC in children hospitalised with severe anaemia or severe malaria, including children with severe malaria who do not have severe anaemia (e.g. cerebral malaria). PDMC consists of full 3-day treatment courses with long-acting antimalarials given monthly three times after discharge. PDMC is very effective in clinical trials. However, adherence to these monthly 3-day drug treatments is limited under real-life conditions. Furthermore, PDMC provides chemoprevention for about 3.5 months only, while the risk of dying or needing to be readmitted remains high for several more months. The US National Institutes of Health (NIH) has developed two monoclonal antibodies targeting Plasmodium falciparum malaria (mMAb). These proteins specifically target a highly conserved epitope found on the circumsporozoite protein-1 (CSP-1) of P. falciparum to neutralize it and prevent malaria infection. A key feature of mMAbs is that they can provide protection for up to 6 months with a single dose and thus serve as a "long-acting" drug. Recent placebo-controlled studies in healthy adults in Mali suggest that the first mMAb, CIS43LS, when administered at a dose of 40 mg/kg intravenously (IV), can block 88% of malaria infections for at least 6 months. More recently, studies with a newer mMAb called L9LS, which is anticipated to be more potent than CIS43LS, showed a 74% reduction in uncomplicated clinical malaria by 6 months when administered subcutaneously to healthy Malian children aged 6-10 years by a single subcutaneous (SC) dose of 10-20 mg/kg (NCT05304611). Similar studies with L9LS are ongoing in healthy children under 5 years of age in Siaya, western Kenya (NCT05400655). Young children admitted to hospitals in highly malaria-endemic areas with severe anaemia or severe malaria are an ideal target group for passive immunoprevention with mMAbs as a single infusion with mMAb while in the hospital could protect this high-risk group during the entire vulnerable post-discharge period. Overview design: investigators will conduct a 2-arm, multi-centre, individually randomised, placebo-controlled non-inferiority trial in 398 children with severe malaria or severe anaemia. Children will be randomly assigned (1:1) using minimum sufficient balance (MSB) randomisation to receive either mMAb before discharge or 3 courses of monthly PDMC after discharge, according to WHO guidelines. The study will be placebo-controlled. Children in the PDMC arm will receive a placebo infusion with normal saline before discharge; children in the mMAb arm will receive placebo-PDMC. All children will receive standard in-hospital care, including a blood transfusion and treatment for severe malaria where indicated. They will also receive a full 3-day treatment course with the antimalarial artemether-lumefantrine (AL) to clear any existing malaria infections as soon as they have recovered and can take oral medication. The primary endpoint is the incidence of clinical malaria detected by passive case detection by 6 months post-discharge (the intervention period). Key secondary endpoints include the rates of readmissions and deaths (all children). Children will be followed for another 6 months (post-intervention period) to determine the duration of protection, any long-term impact (e.g., growth) and if mMAbs result in a delayed acquisition of natural protective immunity against clinical malaria Study Interventions: All children will receive standard in-hospital care, including a blood transfusion, antibiotics, and treatment for severe malaria where indicated. All children in both arms will be empirically treated for malaria infection around discharge with a 3-day regimen with artemether-lumefantrine to ensure parasite clearance of any existing parasites. Participants in the mMAb arm will receive the study agent L9LS IV with a target dose of 30 mg/kg. The IV dose will use 1 kg step increases. During the 6-month intervention period, children in the placebo-mMAbs arm will receive three courses of monthly PDMC as per WHO guidelines with dihydroartemisinin-piperaquine (DP) at 2, 6 and 10 weeks post-discharge. Those in the mMAbs arm will receive an identical placebo PDMC
NCT06635733
The goal of this clinical trial is to evaluate whether the integration of in-person skills practice (ISP) with an adaptive e-learning platform can improve refresher learning progress (RLP) among healthcare providers in pediatric care settings in Tanzania. The main questions it aims to answer are: Can healthcare providers who participate in ISP sessions facilitated by clinical champions achieve greater improvements in refresher learning progress (RLP)? Will providers in the intervention group demonstrate improved metacognition and practical skill performance compared to those in the control group? Researchers will compare healthcare providers using the ISP digital platform (Rhapsode Capable™) to providers using paper-based ISP to see if the digital platform results in significantly higher RLP and fewer skill-based errors. Participants will: Complete adaptive e-learning modules focused on pediatric care topics (e.g., newborn resuscitation, severe malnutrition). Participate in ISP sessions where clinical champions provide feedback and assess performance.
NCT05140278
The objectives of this study contains 3 parts: (1) a comparison of 1-step parenteral artesunate (AS) versus conventional 2-step parenteral artesunate in patients with severe malaria to assess the feasibility of administration, parasite and fever clearance times in two countries, (2) a quantification of convenience and costs of the new 1-step artesunate parenteral formulation versus the conventional formulation in a randomised study, (3) A cost analysis of 1-step parenteral artesunate using data from Part 1 \& Part 2. This will assess health facility-level costs, and also health system costs to encompass all costs of a potential change from conventional to 1-step artesunate, including re-training, materials, and drug replacement. The conventional formulation of injectable artesunate requires a 2-step reconstitution and dilution of the artesunate hemisuccinate powder. A new formulation of injectable artesunate has been developed by Fosun Pharma requiring a simpler 1-step reconstitution. Bioequivalence of the new formulation to the conventional formulation. For part 1, a total number of participants of this study would be 200 participants, estimated 100 per site will be recruited. For part 2, a total number of 40 semi-structured interviews with study staff, health staff, policy makers, and stake holders; and survey/questionnaires with 150 health staff.
NCT02451904
* The aim is to describe disease mechanisms of severe and cerebral malaria and identify new targets for adjunctive therapies. * Despite treatment between 10-30% of patients with severe malaria die. * Metabolic acidosis and cerebral malaria are major complications associated with mortality across all age groups. Still, their underlying pathogenesis remains incompletely understood. * Using a metabolomics approach, this study aims to characterise the spectrum of acids accumulating during acidosis, and investigate patterns of metabolic dysregulation associated with coma and seizures.
NCT01828333
The MATIAS study aims to demonstrate through limited scope implementation studies how injectable artesunate may be progressively rolled out nationwide in the Democratic Republic of the Congo as the preferred treatment for severe malaria.