View clinical trials related to Malaria, Falciparum.
Filter by:Background: Mortality from severe malaria remains ~15% despite the use of the most rapidly parasiticidal antimalarial therapy, artesunate. Adjunctive treatments may improve outcome. Our overall goal is to determine if adjunctive treatment with L-arginine is safe and improves outcomes in severe malaria. In studies to date, we have shown that L-arginine is safe in moderately severe malaria, increases nitric oxide production and improves endothelial function. We now propose to extend these studies to patients with severe malaria. Aims: To determine the safety, preliminary efficacy, pharmacokinetics and pharmacodynamics of L-arginine infusion in severe malaria. Hypothesis: L-arginine will improve endothelial function, lactate clearance time and tissue oxygen delivery compared to saline with no clinically significant adverse effects. Methods: Based on previous pharmacokinetic modeling and simulations, we propose a phase 2A randomised controlled trial of L-arginine vs saline in severe malaria, each given over 8 hours. If safety is demonstrated this will be followed by a phase 2B open-label study of 24-hour infusion of L-arginine in severe malaria with safety and preliminary efficacy compared with the 8 hour infusions given in phase 2A. The primary outcomes will be the improvement in endothelial function and lactate clearance in patients given L-arginine infusion compared with those who received saline. Among the secondary outcomes will be safety and the effect of L-arginine vs saline on tissue oxygen delivery (NIRS). Data from both phase 2A and 2B will be used to generate a pharmacokinetic/ pharmacodynamic model.
Malaria is caused by a parasite and is a health problem for mothers and fetuses (unborn infants). The Cameroonian Ministry of Health recommends that all pregnant women should take the drug sulfadoxine-pyrimethamine (also known as SP) every two months during pregnancy to avoid malaria. The purpose of this study is to find out how effective SP is in preventing pregnant Cameroonian women from getting malaria. Additional goals of this study are to see whether: SP prevents malaria parasites from causing changes in the placenta; SP prevents or helps women make a substance that keeps parasites from accumulating in the placenta; and whether SP affects the amount of protection a mother transfers to her baby. Participants will include 1,160 pregnant women, ages 15-50 years, and 216 babies born residing in Ngalii II and Ntouessong. Study procedures will include monthly blood samples from pregnant women and babies. Volunteers may participate in this study for up to 19 months.
The purposes of this study are to evaluate the safety and immune responses (the body's defense system) to an investigational malaria vaccine called ICC-1132. Three different doses of the vaccine will be studied in 3 groups of people, and the results will be compared. The study will involve about 80 healthy volunteers, 18-45 years of age, who will receive an injection of a specific dose of the vaccine in their arm on 2 or 3 different days. Blood samples will be collected approximately 15 times for laboratory studies. Volunteers will record their temperature twice per day. Volunteers will complete a daily symptom diary for 7 days after each vaccination. Volunteers will participate in the study for up to 13 months.
The primary objective of this Phase III clinical study is to demonstrate the efficacy of the fixed combination of pyronaridine artesunate (PA) granule formulation (60:20 mg; pediatric PYRAMAX®) by showing a PCR-corrected adequate clinical and parasitological cure rate (ACPR) of more than 90%. Secondary objectives of this clinical study are to compare the efficacy (non-inferiority) and safety of the PA granule formulation compared to Coartem® (ie, the combination of artemether/lumefantrine [AL]) crushed tablets in a paediatric population and to assess the safety of the PA granule formulation.
Primary objective: to demonstrate the non-inferiority of PCR adjusted adequate clinical and parasitological response at D28 of artesunate + amiodaquine versus artemether + lumefantrine, based on the first malaria attack of each subject. Secondary objectives: For the first attack: To compare the two groups of treatment in terms of: - D14 efficacy - Parasitological and fever clearance - Clinical and biological tolerability - Evolution of gametocyte carriage - Cardiac tolerability (QTc) For the repeated attacks: To compare the two groups of treatment in terms of: - D14 and D28 clinical and parasitological effectiveness (PCR adjusted) - Clinical and biological tolerability - Proportion of patients without fever at D3 - Proportion of patients without parasite at D3 - Compliance - Impact on anaemia During the total follow-up of the cohort: To compare the two groups of treatment in term of: - Treatment incidence density - Impact of repeated treatment on clinical and biological safety - Impact of repeated treatment on hearing capacity
The purpose of this study is to compare the safety and efficacy in children aged 6 - 59 months with uncomplicated malaria, treated with either conventional artemether/lumefantrine tablets(Coartem®) or artemether/ lumefantrine suspension (Co-artesiane®) in Western Kenya
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.
In the 1950s, the WHO included mass drug administration (MDA) with antimalarial drugs as a tool for malaria control in 'exceptional conditions when conventional control strategies have failed'. Subsequently, MDA has received little attention until the introduction of artemisinin based combination therapy (ACT). The principle aim of MDA is to interrupt malaria transmission by clearing the population of sexual stage parasites, gametocytes, prior to the transmission season. Gametocytes are essential for propagation of the disease and elimination of gametocytes will result in a reduction in malaria transmission. As a consequence, a successful MDA will reduce the burden of disease in a population and is expected to have little influence on the development of protective immunity in areas of low transmission intensity. In Africa, only one large scale MDA study was conducted in the last 10 years. That study, conducted in The Gambia using sulphadoxine-pyrimethamine (SP) plus a single dose of artesunate (AS), failed to show a significant impact of MDA on malaria transmission. Possible reasons for this failure are the limited impact of the drug regimen (a single dose of AS) on malaria transmission, the incomplete coverage, the relatively high transmission intensity in the area and the migration of individuals between villages. Here, we propose to conduct an MDA study in an area of very low malaria transmission intensity in Tanzania. We use the highly active drug combination SP+AS (3 days) followed by a single dose of primaquine..
There are worrying signs that parasitological responses to the artemisinin drugs for uncomplicated falciparum malaria are slower than elsewhere in the world.If responses to artesunate are poor it is essential to have characterised the blood concentration profile as well as the parasitological response to differentiate resistance from abnormal pharmacokinetics. The primary objective of the study is to assess the level of resistance to artemisinin derivatives in Western Cambodia. A detailed evaluation of 2 different artesunate containing regimens in patients with uncomplicated malaria will be performed. Patients will be randomised to receive either a) Artesunate 2mg/kg/day for 7 days or b) Artesunate 4mg/kg/day for 3 days plus mefloquine 15mg/kg on day 3 and 10mg/kg on day 4 The effect on parasite clearance and cure will be assessed in relation to blood concentrations of the antimalarial drugs ('PK-PD').
The purpose of this open randomised multi-centre clinical trial is to test the hypothesis that three pills of the fixed dose combination artesunate/sulfamethoxypyrazine/pyrimethamine, administered over 24 hours is not inferior in efficacy to the same drug administered over 48 hours and that the fixed dose combination artesunate/sulfamethoxypyrazine/pyrimethamine As/SMP fdc, independently of the duration of its dose interval, is not inferior in efficacy to 6 - 24 pills (number of pills administered to respectively children and adults)of the 60 hours treatment of artemether/lumefantrine for the treatment of uncomplicated P. falciparum malaria.