View clinical trials related to Malaria, Falciparum.
Filter by:The objective of this study was to evaluate the safety of a candidate malaria vaccine (PfAMA-1) at 3 doses given at monthly intervals of 2 different dosages of AMA-1 (10 μg or 50 μg ) adjuvanted either with alum hydroxide or AS02A or Montanide ISA 720 in healthy adults not previously exposed to the parasite Plasmodium falciparum.
The purpose of this study is to determine the impact of varying doses of artesunate on treatment outcome and whether higher doses of artesunate can overcome the problem of compromised artemisinin sensitivity in the region. To determine the safety and tolerability of this previously untested experimental high dose (6 mg/Kg/D X 7 day, total 42 mg/Kg) artesunate monotherapy regimen.
This study will assess the safety and efficacy of artemether-lumefantrine tablets (6-dose regimen) in African infants / children with acute uncomplicated falciparum malaria.
The purpose of this study is to determine the importance of key blood group molecules in the clinical outcome of Plasmodium falciparum malaria infection in children.
Malaria in pregnancy is a major public health problem in Sub-Saharan Africa. Over the past decades, P. falciparum has shown increasing resistance to chloroquine and Sulphadoxine-Pyrimethamine, which has prompted a change in treatment approach; artemisinin containing combination therapies (ACTs) are now the standard treatment of P. falciparum malaria in areas with established resistance to traditional therapies. However, a standard approach for using ACT in pregnancy does not exist in Africa, where some countries keep on using quinine, while others allow the use of ACTs. Thus, there is need of establishing the safety and efficacy of ACTs in malaria-infected pregnant women. Since the pharmacokinetic of antimalarials may be altered during pregnancy and since available pharmacokinetic data are still somewhat limited, we propose to carry out a study confirming or disproving existing pharmacokinetic data (collected in South-East Asia), before starting any larger African efficacy and safety trials. The fixed-dose combination mefloquine-artesunate (MQ-AS), developed by the Drugs for Neglected Diseases Initiative, will be used in the study, which will compare the pharmacokinetics of MQ-AS for treatment of P.falciparum in 24 pregnant women in the second and third trimesters, to the pharmacokinetics of this regimen in 24 matched non-pregnant P.falciparum infected women. The study will be carried out in Burkina Faso.
Primary objective is to demonstrate the non-inferiority of PCR (Polymerase Chain Reaction) adjusted adequate clinical and parasitological response at Day 28 of Coarsucam versus Coartem, based on the first malaria attack of each patient. Secondary objectives: For the first attack: To compare the 2 groups of treatment in terms of: - Day 42 efficacy - Parasitological and fever clearance - Clinical and Biological tolerability - Evolution of gametocyte carriage For attack 2nd and following: To compare the 2 groups of treatment in terms of: - Day 28 and Day 42 clinical and parasitological effectiveness - Clinical and Biological tolerability - Proportion of patients without fever at Day 3 - Proportion of patients without parasites at Day 3 - Evolution of gametocyte carriage - Compliance During the total follow up of the cohort: To compare the 2 groups of treatment in terms of: - Treatment incidence density - Impact of repeated treatment on clinical and biological tolerability - Impact on anaemia - Impact on Hackett score.
acidosis, acute renal failure and acute pulmonary oedema are common, and frequently fatal, manifestations of severe P. falciparum malaria. The course of all three might be ameliorated by optimising a patient's intravenous fluid therapy. The fluid treatment of severe malaria is presently empirical, by defining cardiovascular responses to volume replacement we would provide a physiological basis for resuscitation strategies. We will use pulse contour cardiac output monitoring (PiCCOTM) to guide the fluid resuscitation of patients admitted to intensive care with severe malaria. With data collected during the patients' admission we hope to: 1. Assess the degree of hypovolaemia in adults with severe malaria and its contribution to microcirculatory dysfunction and acidosis. 2. To assess the relationships between volume status, haemodynamic parameters and the renal and pulmonary manifestations of severe malaria. 3. To assess the utility of central venous pressure measurement as a guide for fluid administration in patients with severe malaria 4. To investigate the prognostic and clinical utility of central venous oxygen saturation in severe malaria In this way we hope to develop a greater understanding of the pathophysiology of haemodynamic derangement in severe malaria. By comparing the PiCCO derived data with simpler clinical parameters, we hope to determine potential fluid resuscitation strategies - relevant for a resource poor setting - whose efficacy could be confirmed in future trials.
Malaria is a major public health problem in many provinces of Afghanistan the failure rate of chloroquine (CQ) and amodiaquine (AQ) treated Plasmodium falciparum(Pf) malaria has risen to more than 60% overall and as high as 90% in Jalalabad. CQ remains fully effective against P vivax, and sulphadoxine-pyrimethamine (SP) remains effective against P falciparum (10-15% of cases fail to cure). The current malaria treatment protocol still continuing CQ for P.vivax and adopted Artmisinine based combination therapy (ACT) for treating (Pf) malaria, as most than 50% malaria has being diagnosed clinically, so due to this and other operational reasons the protocol needs to be simplified. By comparing 56 day PCR corrected cure rate of DHA-PPQ with the standard treatment regimen as primary objective and comparing the safety, gametocytecidal effect and parasite clearance time as secondary objectives, our study titled: Randomized, Open Label, controlled, non-inferiority clinical trial for comparison of Efficacy & safety, will provide scientific evidence to lead the simplification and improvement of the standard malaria treatment regimen in Afghanistan; to adopt a policy of treating both vivax and falciparum malaria with the same drug regimen. With a significance level (α) = 0.05 and a power=80%, the calculated sample size is 274 per study arm. Therefore about1100 patients (274 per study-arm: 548 patients with falciaprum malaria and 548 patients with vivax malaria) will be recruited in Malaria reference Centers (MRCs) of three malaria endemic provinces (Nangarhar in the east, Thakhar in the north-east and Faryab in the north-west of country) after signing written inform consent form, according the inclusion and exclusion criteria and will be treated as out patients by giving the randomized drug dose under observation of study team and followed-up daily for 3 days (as treatment course of either arm is once daily dose for three days) and after than weekly up to day 56. and the study is planed to conducted in 3 provinces of Afghanistan for approximately 2 years. Patients will be assessed clinically as well necessary laboratory tests will be performed and all the bio-medical findings will be recorded in special patient case record form, the electronic form of which will be broth to Trop. Med of Mahidol University for final analysis. The patients will be receiving the reasonable transportation cost for follow-up visits as well as one bed-net at the end of enrollment.
The primary objective is to confirm the hypothesis that azithromycin used in combination with chloroquine is non-inferior to artemether- Lumefantrine for the treatment of symptomatic, uncomplicated malaria due to P. falciparum in children in African countries.
This study, sponsored by NIAID and the University of Bamako, Mali, will identify genetic and other factors that may protect against severe malaria in some children. Children between 6 months and 17 years of age who live in Kenieroba, Fourda or Bozokin villages in Mali may enroll in the study. Participants have a blood sample collected by finger prick with a small needle. The blood is examined for gene variants that influence the severity of disease in children exposed to the malaria parasite. Children who develop a fever or other symptoms of malaria are evaluated and treated in Kenieroba s health center for up to 5 years from entering the study, or until they reach 18 years of age. The children are treated with artesunate and amodiaquine. Children with severe disease are treated with quinine. One tablespoon of blood is drawn from the children for study. At the end of the dry season and the wet season, a subset of 200 healthy children are asked to provide 1 or 2 tablespoons of blood, drawn through a needle placed in a vein in the arm. Additional research blood samples may be requested from children between 2 and 17 years old. Blood will not be taken from any child more than twice a year. ...