View clinical trials related to Malaria, Falciparum.
Filter by:Background: - Malaria is an illness caused by a parasite spread by mosquitoes. When a mosquito bites a person who is infected with a kind of parasite called a gametocyte, it is able to spread the infection to another person. Not everyone infected with parasites have gametocytes in their blood. As a result, not everyone can spread malaria to others. Researchers are interested in learning more about why some healthy people have gametocytes in their blood and others do not. Identifying the people who have gametocytes in their blood can help target treatment and reduce the spread of malaria. This study will focus on the people of the village of Kenieroba in Mali, where malaria is common. Objectives: - To study the relationship between gametocytes and malaria transmission in Mali. Eligibility: - Individuals between 6 months and 65 years of age who live in Kenieroba, Mali, and will stay in the area for 1 year. Design: - For 1 year, participants will have study visits once every 2 weeks (twice a month, for a total of 24 visits). The visits will last 30 minutes each. - At each visit, participants will provide a small blood sample. They will report any symptoms of malaria such as fever, headache, and body aches. Participants will be encouraged to seek medical treatment if they experience malaria symptoms between visits. - Participants who have malaria symptoms will have a blood test for malaria parasites. Those who have parasites in the blood will receive antimalarial treatment. - Three times over 1 year, a larger blood sample will be collected. These blood samples will be taken once in the dry season, once in the wet season, and once in the next dry season. - Women between 14 and 45 years of age will also provide urine samples to test for pregnancy. Pregnant women will not be asked to give blood samples.
Study treatments: - Artemether-lumefantrine - Artesunate-amodiaquine - Dihydroartemisinin-piperaquine Location: Maradi, Niger Principal Objective: To measure the clinical and parasitological efficacy of the three artemisinin combination therapies over a period of 42 days from the start of treatment and with polymerase chain reaction assay (PCR) adjustment. Secondary objectives: - To determine the blood concentration of the non-artemisinin component of the treatment (lumefantrine, desethylamodiaquine or piperaquine) at day 7 - To assess the incidence of adverse events during the follow-up period; - To measure speed of parasite clearance Methods: In vivo non comparative study as for WHO standardised protocol. The study also measure the concentration of the non-artemisinin component. Target population: Children under 5 years of age consulting the integrated health centres of Andoumé and Dix-sept portes in Maradi. Sample size: 221 patients per study treatment; 663 patients in total. Treatment allocation: Random. Outcomes: - Early treatment failure, - Late clinical failure, - Late parasitological failure, - Adequate clinical and parasitological response. Analysis: - Cumulative success or failure rate (Kaplan-Meier analysis). - Proportions of early treatment failures, late clinical failures, late parasitological failures, and adequate clinical and parasitological response (called also Per-protocol analysis).
This is an open label, multi-centre phase I/IIa sporozoite-challenge trial to assess the safety, immunogenicity and efficacy of two combination ChAd63-MVA heterologous prime-boost vaccination regimens. All volunteers recruited will be healthy, malaria naïve adults aged between 18 and 45 years. To determine the efficacy of each of two combinations of heterologous prime-boost immunisation strategies: 1. ChAd63-MVA ME-TRAP combined with ChAd63-MVA CS 2. ChAd63-MVA ME-TRAP combined with ChAd63-MVA CS and ChAd63-MVA AMA1 The study will be conducted at the University of Oxford's Centre for Clinical Vaccinology and Tropical Medicine (CCVTM), Oxford, UK and the Wellcome Trust Clinical Research Facility in Southampton, UK. The malaria challenge will take place at the insectary at Imperial College (Infection and Immunity Section) in London, UK.
Background: - Artemisinin-based combination therapies (ACTs) are the first-line treatments for malaria. ACTs are highly effective, but malaria caused by the Plasmodium falciparum parasite is becoming resistant to some ACTs. ACT-resistant malaria has shown up in some parts of Cambodia, but not yet in other parts of the country. This has been shown by treating patients with ACTs, checking the amount of parasites in the patient s blood every 6 hours, and calculating the rate of parasite clearance. The parasite clearance rate in response to ACTs is getting slower in western Cambodia and may be the first sign of ACT resistance. Researchers want to study how effective ACTs are in different regions of Cambodia. This study will look at the extent of ACT resistance and how widespread ACT-resistant malaria has become. Objectives: - To compare the prevalence of ACT-resistant malaria in western, northern and eastern Cambodia. Eligibility: - Individuals between 2 and 65 years of age who have uncomplicated Plasmodium falciparum malaria and have not taken any antimalarial drugs for their symptoms in the previous 7 days. Design: - Participants will be recruited from clinics and hospitals in three Cambodian provinces. - Participants will be informed about the study and their consent to participate in the study will be obtained. - A venous blood sample will be obtained from patients before treatment and used for laboratory experiments to measure parasite and patient factors that might affect the parasite clearance rate. - Participants with malaria will be treated with dihydroartemisinin-piperaquine (DHA-PPQ), the standard first-line treatment for malaria in Cambodia. - Treatment will be monitored with frequent blood samples obtained from a finger prick. The amount of malaria parasites in each blood sample will be counted and followed until they are no longer detectable. - Participants will have weekly follow-up visits for up to 9 weeks. Finger-prick blood samples will be taken at each visit to see if the parasites reappear after treatment with ACT.
In Afghanistan, studies over the past 15 years have shown a high degree of Plasmodium falciparum resistance to chloroquine. In 2003 the high failure rate of chloroquine against falciparum malaria led the national malaria treatment programme to switch its recommended first line drug treatment for uncomplicated Plasmodium falciparum malaria to artemisinin-based combination therapy (ACT) in the form of Artesunate/Sulphadoxine-Pyrimethamine (AS+SP). Second line drug treatment is oral quinine (7 days). For operational reasons, prior to recent studies (manuscript in preparation) there have been no molecular data on P. falciparum SP resistance markers from within the borders of Afghanistan. These studies have revealed early evidence of increasing SP resistance (resistance polymorphisms with double DHFR & triple DHPS mutations). The aim of this study is to conduct a focused, prospective study in Kunar for monitoring of the efficacy of the AS+SP combination in this province, along with molecular studies of isolates from recruited patients.
In a previous study (NL33904.091.10) the investigators challenged 24 volunteers after Chloroquine Prophylaxis Sporozoites (CPS) immunization with 45, 30 or 15 infected mosquito-bites respectively. The availability of this immunized cohort opens the unique opportunity to determine protection to a heterologous challenge for both of the protected and unprotected volunteers as the previous challenge infection might have served as immunological boost to the unprotected volunteers. In the current observational, proof of principle study, the investigators aim to investigate the protection on an individual basis of these previously immunized and challenged volunteers against a heterologous P. falciparum challenge.
The main purpose of this study is to compare artesunate-mefloquine combination therapy given for 2 and 3 days at the same total dose for the treatment of uncomplicated falciparum malaria.
This study aims to assess the safety and effectiveness of four new candidate malaria vaccines; ChAd63 CS, ChAd63 ME-TRAP, MVA CS & MVA ME-TRAP. These vaccines consist of viruses (ChAd63 and MVA) which have been genetically modified so (i) they cannot replicate in humans and (ii) they include parts of the malaria parasite; Plasmodium falciparum (CS and ME-TRAP). The hope is that these vaccines will induce immune responses in vaccinees that are able to prevent malaria. This proposed study will compare how effective ChAd63-MVA CS is at preventing malaria infection in UK volunteers following malaria challenge compared to ChAd63-MVA ME-TRAP. The study will be conducted at the University of Oxford's Centre for Clinical Vaccinology and Tropical Medicine (CCVTM), Oxford, UK and the Wellcome Trust Clinical Research Facility in Southampton, UK. The malaria challenge will take place at the insectary at Imperial College (Infection and Immunity Section) in London, UK.
The purpose of the study is to obtain efficacy, safety and pharmacokinetic (PK) data following treatment with artemether-lumefantrine dispersible tablet in infants < 5 kg of body weight (BW) with uncomplicated falciparum malaria.
The primary trial objective is to determine the clinically effective dose of orally administered pyronaridine/artesunate (Pyramax®, PA) with a 3:1 ratio to treat adults with acute, symptomatic, uncomplicated P. falciparum malaria in South East Asia and Africa. Secondary trial objectives are to determine the safety of once-daily dosing for 3 days of PA and to explore possible ethnic differences in safety or efficacy.