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Malaria Transmission clinical trials

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NCT ID: NCT06172686 Not yet recruiting - Clinical trials for Controlled Human Malaria Infection

In-vivo Transmission Model in Semi-immune Adults

Start date: January 9, 2024
Phase: Phase 1
Study type: Interventional

Controlled human malaria infection (CHMI) has revolutionized the development of malaria vaccines. It involves the administration of either known numbers of sporozoites or infected erythrocytes to healthy human volunteers under a controlled environment. The use of highly sensitive molecular malaria diagnostic methods informs treatment decisions before symptom development and allows the characterization of parasite growth dynamics. Sporozoite CHMI has safely been used in six countries in Africa providing a platform to assess the efficacy of candidate malaria vaccines and study the natural immunity to malaria. Blood stage CHMI involves administration of known number of Artemether Lumefantrine sensitive infected erythrocytes in healthy volunteers, and it is a more sensitive model for modelling parasite growths and study the efficacy of blood-stage malaria vaccines. It has been safely used in Australia and Europe but not in Africa. Adaptation of this model by administration of combination of suboptimal and optimal antimalarial drugs lead to increased gametocytaemia, and infection rates in mosquitoes following standard membrane feeding assay. Such adaptation allows the model to be used to study parasite transmission from human to mosquitoes and evaluate transmission blocking malaria interventions. There is an urgent need to establish an in vivo model for early-stage clinical evaluation of transmission blocking interventions (TBI) in volunteers living in malaria endemic countries. This would allow rapid and cost-effective way to down-select transmission blocking candidate malaria vaccine and gametocidal antimalarial drugs before larger, more complex, and expensive field efficacy studies are conducted. A study done in naïve individual showed 100% success in establishing a malaria infection using 2800 P. falciparum infected RBCs, while a recent study (manuscript in development) has demonstrated success in establishing infection in Tanzanian semi-immune individuals with low malaria exposure using 1000 P. falciparum infected RBCs. We will use 1000 ALU-sensitive 3D7 P. falciparum infected RBCs to establish an in vivo transmission model for studying Transmission blocking interventions and assess the efficiency of two antimalarial drugs regimens (Piperaquine and doxycycline) to induce high levels of gametocytaemia and mosquito infection rates in healthy African adults. We will also investigate the determinants of successful transmission to mosquitoes including underlying immune responses to both asexual and sexual malaria antigens, asexual parasite dynamics and gametocyte burden, sex ratio of male and female gametocytes, and the relationship between gametocyte density and mosquito infection rate

NCT ID: NCT02769013 Completed - Clinical trials for Malaria Transmission

Assessing the Effect of Neglected Tropical Diseases on Plasmodium Falciparum Transmission in an Area of Co-endemicity

TRANSMAL
Start date: April 2016
Phase:
Study type: Observational

Assessing the effect of neglected tropical diseases on Plasmodium falciparum transmission in an area of co endemicity.

NCT ID: NCT01906788 Recruiting - Clinical trials for Malaria Transmission

The Optimal Timing Of Primaquine To Prevent Malaria Transmission After Artemisinin-Combination Therapy

Start date: May 2013
Phase: Phase 4
Study type: Interventional

The investigators' Hypothesis is that "The correct timing of gametocytocidal drug in combination with an effective Artemisinin Combination Therapy can limit the infectiousness of malaria-infected individuals to less than one week after initiation of treatment"