Active clinical trials for "Malaria"

This is a continuous cohort study consisting of 200 participants (one third 6 months old to 5 years, one third 6 to 15 years old, one third ≥ 15 years old) i.e. a new patient will be recruited (from the same age group) for any patient who develops a Pv infection so that the cohort will always have 200 patients for 3 years. Each patient will be actively followed-up every 8 weeks until Plasmodium vivax infection occurs but the duration of follow up and the number of follow up visits for each patient will vary depending on when or if a vivax infection occurs and when the patient is recruited. Therefore, the minimum follow up period for each patient will be 6 months or time to vivax infection and the maximum will be 3 years if a patient does not get vivax infection and is recruited at the beginning of the study.

The purpose of this study is to determine safety and efficacy of prenatal iron supplementation in an area of high malaria burden among women who are not anemic or iron deficient.

This is a first-in-humans safety, immunogenicity and efficacy study with recombinant protein VMP001, a Plasmodium vivax circumsporozoite (CS) protein based vaccine. This open label study will be performed in malaria-naïve adults in the United States. Three doses of VMP001 formulated in AS01B (adjuvant system) will be given intramuscularly at different intervals followed by a challenge with P. vivax infected mosquitoes. Safety, immunogenicity and efficacy parameters will be studied.

This is an open label phase I study, to assess the safety of a novel malaria vaccine, AdCh63 AMA1, simian adenovirus encoding Plasmodium falciparum blood stage antigen, Apical Membrane Antigen -1. All volunteers recruited will be healthy adults. They will be primed with various doses of AdCh63 AMA1 administered intramuscularly. Some of the volunteers will receive a booster vaccination with MVA AMA1 administered via intramuscular route. Safety data will be collected for each of the eight regimens. Secondary aims of this study will be to assess the immune responses generated by each of these regimes.

The purpose of the study is to determine whether the artesunate-amodiaquine combination is effective in treating uncomplicated Plasmodium falciparum malaria in children with severe acute malnutrition. Infection with Plasmodium falciparum malaria remains a significant cause of morbidity and mortality in malnourished children. Malnutrition is known to have a modulating effect on the incidence of malaria infections, its severity and effectiveness of treatments. However, little data exists on antimalarial drug efficacy in malnourished children. Artesunate-amodiaquine combination is the first line treatment used in Médecins Sans Frontières programmes in Niger. The assumption of current efficacy of artesunate-amodiaquine is based on non malnourished children. The aim of this study is to measure the clinical and parasitological efficacy in severely malnourished children. The study is consistent with the standard WHO protocol for monitoring antimalarial drug efficacy (WHO: Methods for surveillance of antimalarial drug efficacy. Geneva; 2009), except for one inclusion criterion. Severe acute malnutrition is an inclusion criteria, instead of being an exclusion criteria. The study will encompass a pharmacokinetic part that will provide important information on the absorption of the drug.

The purpose of this study is to compare the presence of Plasmodium infection in parturient women who antenatally received a combination of iron-fortified foods with iron supplements versus iron-fortified foods only.

This study aims to test the safety and efficacy of six new malaria vaccines - AdCh63 AMA1, MVA AMA1, AdCh63 MSP1, MVA MSP1, AdCh63 ME-TRAP & MVA ME-TRAP. These vaccines consist of inactivated viruses which have been modified - so they cannot reproduce (replicate) in humans, and also to include genetic material (genes) for malaria proteins which are expressed by the malaria parasite during both liver and blood stage infection. The vaccines are designed to stimulate an immune response to these malaria proteins (immunogenicity describes the nature and magnitude of this immune response) and thus provide protection against malaria infection. The protective efficacy of vaccines will be evaluated by challenging a small number of volunteers who have received the vaccines with malaria infection from the bites of infected mosquitos(sporozoite challenge).

The purpose of this study is to determine the safety and tolerability of a non-replicating, metabolically active Plasmodium falciparum sporozoite (PfSPZ) vaccine in malaria-naïve healthy volunteers following multiple-dose subcutaneous (SC) or intradermal (ID) administration. In addition, the investigators wish to evaluate PfSPZ vaccine-mediated protection against P. falciparum challenge in the following 4 groups (see below) and compare protective efficacy of the PfSPZ vaccine when given by SC v ID administration in all these groups: Group 1: 4 doses of 7,500 PfSPZ/immunization, Group 2: 4 doses of 30,000 PfSPZ/immunization, Group 3: 4 doses of 135,000 PfSPZ/immunization Group 4: 4 or 6 doses of 135,000 PfSPZ/immunization. If > 80% protective efficacy is not achieved in Groups 1, 2, or 3, volunteers in Group 4 will receive a fifth and sixth dose.

The purpose of this study is to determine to what extent supplementation with zinc and other micronutrients are efficacious in preventing malaria in young Tanzanian children.

This is a phase Ib double-blind randomized placebo controlled age-deescalating trial to assess sagety and immunogenicity of two virosome formulated anti-malaria vaccine components (PEV 301 and PEV 302) administered in combination to healthy semi-immune Tanzanian adult and children.