View clinical trials related to Malaria.
Filter by:This study is designed to evaluate safety, reactogenicity, immunogenicity, and efficacy of GSK Biological's malaria candidate vaccine 257049 administered as standard doses at 0 and 1 months and 1/5th standard dose at 7 months (delayed fractional dose group) and 257049 administered as three standard doses one month apart (0, 1, 2-month group) in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model. An additional, delayed sporozoite challenge will assess persistence of protection induced by the primary immune schedule and if an additional dose can provide protection in those unprotected by the initial vaccination series.
Piperaquine tablets (coated) + OZ439 granules + TPGS granules will be co-administered in Phase IIb (adults). However, safety and PK data (for OZ439 plus piperaquine) were obtained using piperaquine tablets plus OZ439 as Powder in Bottle with milk. Piperaquine has not yet been administered together with TPGS. Co-administration of piperaquine plus OZ439 as Powder in Bottle (PIB) with milk results in an increase in OZ439 exposure (current estimate ~ 70% due to a small drug drug interaction). This study investigates the exposure of piperaquine and OZ439 when co-administered as piperaquine phosphate tablets and OZ439 + TPGS prototype (a formulation close to that of Phase IIb, but not identical), in order to select the appropriate doses for Phase IIb. The reference treatment is piperaquine phosphate tablets + OZ439 Powder in Bottle + full fat milk
To assess the efficacy of artesunate-amodiaquine, dihydroartemisinin-piperaquine, in comparison with artemether-lumefantrine during 42 days follow up period in 720 children with acute uncomplicated P. falciparum malaria, in two different endemic ecological areas - Savanna and equatorial forest regions of Cameroon. We have set as specific objectives: - To assess the efficacy of artesunate-amodiaquine, dihydroartemisinin-piperaquine, in comparison with artemether-lumefantrine during 14 and 28 days follow up period in children with acute uncomplicated P. falciparum malaria in two different endemic areas. - To evaluate the safety of artesunate-amodiaquine, dihydroartemisinin-piperaquine, in comparison with artemether-lumefantrine during 42 days follow up period in children with acute uncomplicated P. falciparum malaria. - To determine parasite clearance time (PCT) and fever clearance time (FCT) following the administration of the three trial regimens. - To investigate the treatment response based on WHO criteria (WHO, 2003) in patients in all groups after trial. - To investigate the Single Nucleotide Polymorphisms (SNPs) and microsatellite markers of genes associated with drug resistance
The aim of the study was to follow clearance of malaria infections and detection of new malaria episodes after initiation of antimalarial treatment in Tanzanian children. For this purpose the investigators used five diagnostic tools, 2 Rapid Diagnostic tests based on Histidine Rich Protein 2(HRP2) and Lactate dehydrogenase(LDH), 2 microscopical methods and one polymerase chain reaction (PCR). The investigators followed the 53 enrolled children during 42 days.
In this study, the investigators are interested to know if lower doses of Primaquine together with dihydroartemisinin-piperaquine can produce a similar effect of clearing both sexual and asexual parasites in asymptomatic carriers compared to the recommended dose of primaquine but with a decreased risk of haemolysis. Children (> 1 year) and adults with normal Glucose-6-phosphate dehydrogenase enzyme levels but with asexual Plasmodium falciparum parasites on the day of screening will be invited to take part in this study.
Community Health Clubs to improve local sanitation, hygiene and health conditions have been implemented in several countries in Africa and Asia with some success. The Ministry of Health in Rwanda has committed to rolling out a program designed along similar lines, the Community Based Environmental Health Promotion Program (CBEHPP), in all 15000 villages across Rwanda. The main objective of the program is to achieve 'zero open defecation' in all villages of Rwanda, at least 80% hygienic latrine coverage and improvements in a range of health behaviors such as the use of mosquito nets, hand-washing with soap and the use of household water treatment. To evaluate the impact of the program on health, other socio-economic outcomes and community functioning, a single district has been chosen where 150 communities will be randomized to receive the intervention immediately or 18 months later. The evaluation is led by US based Innovation for Poverty Action (IPA) through researchers based at the National University of Rwanda, Georgetown University, London School of Hygiene and Tropical Medicine and New York University. The research team will work in close collaboration with the implementing team, which consists of the Ministry of Health, Rwanda and Africa AHEAD. The study will span three years, beginning in May 2013, and ending in late 2015.
This study aims to determine the Minimum Inhibitory Concentration of KAE609 in adult male patients with acute, uncomplicated malaria due to P.falciparum monoinfection after single dosing with KAE609
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.
The MATIAS study aims to demonstrate through limited scope implementation studies how injectable artesunate may be progressively rolled out nationwide in the Democratic Republic of the Congo as the preferred treatment for severe malaria.
This is an open label phase Ia study, to assess the safety of two novel malaria vaccines, ChAd63 PvDBP, with or without MVA PvDBP. Heterologous prime-boost with ChAd63-MVA is, to our knowledge, one of the most potent T cell-inducing subunit vaccine regimens which can importantly also induce antibodies. Previous clinical trials using this regimen expressing ME-TRAP, AMA1 & MSP1, have shown that administering ChAd63 as a prime followed 8 weeks later by MVA as a boost is a very immunogenic schedule (32-34). For this reason, and to provide comparability with previous ChAd63-MVA trials, we propose to use a similar administration schedule.