View clinical trials related to Malaria.
Filter by:In Cambodia, falciparum is becoming more difficult to treat because drugs are becoming less effective. The investigators can help to try to prevent the spread of this resistant malaria by adding a drug that will make it more difficult for the mosquito to drink up the malaria in people's blood. If the mosquito cannot drink up the malaria, then the malaria cannot develop in the mosquito so it will not be able to inject malaria back into people when it bites. The drug the investigators will use is called primaquine. Primaquine commonly causes the red cells in the blood to break apart if they are weak. Red cells need enzymes to work properly and weak red cells have low amounts of an enzyme called glucose 6 phosphate dehydrogenase (G6PD). The investigators want to know if treating malaria with primaquine will be safe for the red cells. To do this study, the investigators need to know if a subject has low G6PD or not.
This is a single-centre, controlled, open label study using P. falciparum-induced blood stage malaria (IBSM) infection to assess the effectiveness of OZ439 as a gametocytocidal agent, as well as its treatment effects on gametocyte infectivity and development in vector mosquitoes. Previous clinical studies including one IBSM study have shown that in addition to effectively clearing replicating, asexual (pathogenic) life cycle stages of malaria, a single dose of piperaquine (480 mg) results in the production of gametocytes, as determined by gametocyte-specific transcript (pfs25) qPCR. The propensity of piperaquine to induce gametocytaemia will be employed in this study to assess the efficacy of OZ439 as a gametocytocidal and transmission blocking agent. Experimental mosquito feeding via both direct feeding on participants and artificial (indirect) membrane mosquito feeding will be performed. The study will be conducted in up to 3 cohorts where participants will be randomised into an experimental or a control group (n=2 per group) when peak gametocytemia occurs (approximately 15 days after administration of piperaquine).
This is a single-centre, open-label study using P. falciparum-induced blood stage malaria (IBSM) infection to assess the infectivity of sexual life cycle stages of the malaria parasite (gametocytes) to mosquito vectors. Previous clinical studies have shown that treatment of participants with the antimalarial drug piperaquine, in addition to effectively clearing asexual (pathogenic) stages of the malaria life cycle, induces the production of gametocytes in the blood. The propensity of piperaquine to induce gametocytemia will be employed in this study to assess gametocyte infectivity to Anopheles mosquitoes. For this purpose, experimental mosquito feeding directly on participants and artificial membrane mosquito feeding will be performed. The study will be conducted in 3 cohorts (n=2 per cohort). Subsequent cohorts will not commence until at least after day 28 of the previous cohort and review by Safety Review Team. This interval will also allow cohorting of experimental infection of mosquitoes to optimise logistics and enable iterative improvements in the system if applicable.
This is a retrospective non randomized cohort to evaluate efficacy of MAS3 on patients with uncomplicated P. falciparum malaria or mixed infection (P. falciparum + a non-falciparum species). The review of patients' records and blood samples will be performed for patients treated at the clinics of Shoklo Malaria Research Unit from the period of January 2003 to December 2013.
This is a single center, randomized, placebo-controlled, double-blind trial to assess the safety and immunogenicity of PfSPZ Vaccine administered by direct venous inoculation (DVI). The study to be conducted in Baney District, Bioko Island, Equatorial Guinea (EG), will be to establish whether three doses of the higher regimen - three doses of 2.7x10^5 PfSPZ of the PfSPZ Vaccine administered at 8 week intervals - is as well-tolerated and efficacious in malaria exposed African adults as the five dose regimens. Specifically, the trial will address the following objectives: is the three dose regimen: 1. Safe and well tolerated in Equatoguinean (EG) adults. 2. As immunogenic in EG adults as is the five-dose regimen of 1.35x10^5 PfSPZ in Tanzanian and U.S. adults or as three-, four- and five-dose regimens of 2.7x10^5 PfSPZ being tested in Tanzanian, Malian and U.S. adults. In addition, as an exploratory objective, the volunteers in the EG trial will be followed longitudinally to measure the incidence of malaria during the initial six months following immunization, providing a preliminary assessment of efficacy.
The purpose of this study is to determine the efficacy of pyronaridine-artesunate and artemether-lumefantrine for the treatment of uncomplicated Plasmodium falciparum malaria in Kenyan children.
In the context of malaria elimination in the Americas, solid evidence is necessary of the effectiveness of anti-malarial control measures delivered to the affected individuals. In the Americas, most P. vivax infections are sensitive to Chloroquine (CQ) and Primaquine (PQ), and the most effective treatment worldwide comprises administration of a total dose of 25 milligrams (mg)/Kilogram (kg) weight of CQ distributed in three days and 3.5 mg/kg body weight of PQ administered during 14 days (T14). In Mexico, CQ and PQ have been administered since the late 50´s to treat malarious patients. In 1999 the National Malaria Control Program implemented an intermittent single doses treatment (ISD) as part of the overall strategy. After the blood sample was obtained for diagnosis of symptomatic patients, a single combined dose of CQ and PQ was administered, and after malaria infection confirmation, additional doses were administered monthly alternating each three months, during 3 years. Although, the number of malaria cases were reduced in most affected regions, in Southern México, many patients under ISD present recurrent blood infections, presumably relapse episodes were observed. Working hypothesis: the administration of ISD is low effective to eliminate relapse episodes and its effectiveness depends on the coincidence of the relapse episodes and the administration of the medication), while the T14 is highly effective to eliminate P. vivax primary and relapse infections. Objective: To determine the antimalarial drug effectiveness of the ISD and T14, based on CQ and PQ for the treatment of uncomplicated P. vivax infection (primary and recurrent blood infections) in Southern Mexico. Methods: The study was carried out in malaria affected communities of Southern Mexico, following the WHO recommendations for clinical studies. Symptomatic patients diagnosed with P. vivax infection that meet the inclusion criteria, were invited to participate. After they accepted by informed consent, patients were semi-randomized and treated with either T14 (14-day treatment) or ISD (18 intermittent single doses of CQ-PQ). Clinical, parasitological, molecular and serological parameters were monitor over a 12-month follow up period to evaluate the treatment outcomes to cure blood infection and relapsing episodes. The study was conducted from February-2007 to October-2010. The results of this study will be used to assist the Ministry of Health of México in assessing the current national treatment guidelines for uncomplicated P. vivax malaria
In the past decade, massive scale-up of insecticide-treated nets (ITN) and indoor residual spraying (IRS), together with the introduction of artemisinin-combination treatments, have led to substantial reductions in malaria prevalence and incidence in African highlands. However, rising insecticide resistance and increased outdoor transmission have greatly hampered the effectiveness of ITN and IRS because the current indoor-based interventions do not target the outdoor-biting mosquitoes. Therefore, new supplemental interventions that can tackle outdoor transmission and pyrethroid insecticide resistance are urgently needed. The central objective of this study is to determine the efficacy and cost-effectiveness of EPA-approved long-lasting microbial larvicides in reducing malaria transmission and clinical malaria incidence in western Kenya highlands.
This study is a prospective, single arm, open-labelled clinical trial. The total number subjects will be 145 patients to receive Pyronaridine-artesunate once daily for 3 days. Dosing will be according to the body weight. All patients will have a blood smear examined daily during the first week by microscopy until parasite clearance (2 consecutive negative slides on two consecutive days; both asexual and sexual stages). A negative blood slide will be defined as parasite count negative per 1000 WBC in two consecutive days. The sample on day 3 will be taken as close as possible to 72h after the initial blood smear. Participant will follow up for 42 days to assess the drug efficacy and safety (Day 7, 14, 21, 28, 35 and 42).
This is a study assessing safety and efficacy of current national guidelines for the treatment of uncomplicated malaria in Bangladesh as well as to assess the G6PD status among the enrolled patients.