View clinical trials related to Malaria.
Filter by:This is a first-in-human phase I, open-label, single-site, dose escalation study to determine the safety, tolerability and Plasmodium falciparum transmission reducing activity of the R0.6C vaccine in two different adjuvant combinations.
A school-based, prospective, cohort study was conducted to evaluate the epidemiology of P. falciparum (Pf) infections in school-age children and determine the impact of the screen-and-treat approach on Pf infection and anemia prevalence among students in two different transmission settings. Investigators aimed to evaluate how frequently malaria rapid diagnostic tests (mRDTs) fail to detect low-parasite-density infections as well as whether low-density infections contribute to the burden and health consequences of Pf infection in school-age children and whether they contain gametocytes, the parasite stage required for transmission from humans to mosquitos.
Sickle Cell Anaemia (SCA) is an inherited disease that makes the body produce red blood cells with abnormal sickle-shaped cells. The sickle-shaped cells are rigid, not flexible and break up easily resulting in anaemia. The abnormal cells also stick to the vessel walls, causing a blockage that slows or stops the flow of blood. When this happens, oxygen cannot reach nearby tissues. The lack of oxygen can cause attacks of sudden, severe pain, called pain crises, stroke or damage to important organs such as the spleen. All of these can lead to death. These attacks can occur without warning and are often started and made worse by infections such as malaria. Therefore, in many countries in Africa where malaria is common, children with SCA are given malaria medicines to prevent the infection. However, many of the medicines do not work effectively, are too difficult to take or they have side effects, resulting in poor adherence. The aim of this study is to find safe, acceptable and effective medicines for malaria prevention in children with SCA in eastern and southern Africa. The investigators propose to conduct a study to find out whether giving weekly doses of dihydroartemisinin-piperaquine, also called DP, is safe, more effective, acceptable and cost-effective than the current strategy of monthly sulphadoxine-pyrimethamine (SP) to prevent malaria in children with sickle cell anaemia. Overall, 548 children aged 6 months to 15 years will be chosen randomly to receive either weekly DP or monthly SP for about 18 months. To test if the study medicine is effective, the study will compare the case burden of malaria. The investigators will also monitor every child for any type of illness, blood transfusions and other complications of sickle cell anaemia and admissions to the hospital. In addition, the study will evaluate the impact of DP on the development of resistance by malaria parasites. The study will also include nested safety studies on the effect of DP on the heart. All study participants will receive all the other usual care and treatments, including patient education on home care, and daily penicillin if younger than 5 years. If proven safe and efficacious, chemoprophylaxis with DP may decrease the incidence of malaria in children with SCA, prevent ill-health and deaths, and improve wellbeing.
The primary objective of the study is to demonstrate and quantify the protective efficacy of a single Spatial Repellent (SR) product, in reducing malaria infection in a human cohort. The study design will be a prospective cluster Randomized Control Trial (cRCT).
The aim of this study is to assess the clinical performance (sensitivity, specificity, positive and negative predictive values) of the STANDARDâ„¢ Q Malaria/CRP Duo Test when used by health care workers (HW) in a point of care (POC) setting in malaria endemic areas in India. Performance will be assessed in comparison with expert microscopy as the reference test for malaria, and with a high quality, commercially available C-Reactive Protein (CRP) test kit run on a laboratory machine as a reference test for CRP.
This will be a single-centre, open label trial to determine the safety and feasibility of CHMI model using Plasmodium falciparum-infected cryopreserved erythrocytes administered to healthy Tanzanian adults with varying prior exposure to P. falciparum.
In endemic settings Plasmodium falciparum (Pf) can sequester in the placenta resulting in low peripheral parasitemia and false negative malaria diagnosis in pregnant women. Intermittent Preventive Treatment in pregnant women with Sulphadoxine-Pyrimethamine (IPTp-SP) is one of the World Health Organization's recommended malaria control strategies in sub-Saharan African countries. The strategy overcomes the risk of misdiagnosis of malaria in pregnant women by treating them all with SP according to predetermined schedules, but the strategy is now threatened by the spread of Plasmodium parasite resistant strains. As a necessary alternative, Intermittent Screening and Treatment in pregnancy (ISTp), aims on the monthly screening of pregnant women with a malaria rapid diagnostic test (RDT) and the treatment of positive cases with artemisinin-based combination therapy (ACT) regardless of the presence of symptoms. The ISTp depends on the performance of the diagnostic tests, and the use of ultrasensitive RDTs (us-RDTs), which have a higher analytical sensitivity than conventional RDTs, should improve the efficacy of the strategy. Unlike IPTp-SP, ISTp prevents overuse of antimalarials and thus limits drug pressure on malaria parasites. This advantage could be potentiated by using, for pregnant women, an ACT that is not yet used or should not be used in the field for other strata of the population. The recently approved new ACT combination, Pyronaridine - Artesunate (Pyramax®) is the ideal candidate for this purpose. This study will compare the effects of the ISTp using an us-RDT and Pyramax® (ISTp-US-Py) with the standard IPTp-SP on maternal malaria indicators (malaria infection, parasite density), maternal anemia, spontaneous abortions or intrauterine deaths during pregnancy, fetal morbidity (preterm birth, low birth weight, small for gestational age) and neonatal mortality at delivery in both study groups through conducting a randomized clinical trial enrolling second trimester pregnant women in Maternité Esengo Health Center, located in Kisenso, Kinshasa, the Democratic Republic of the Congo (DRC), a malaria perennial transmission area. The results generated from this study will be essential for the National Malaria Control Program in the selection and implementation of new malaria control policies and addresses the effectiveness of IPTp-SP decline among pregnant women in the DRC.
WHO recommends that Therapeutic Efficacy Studies (TES) for 1st and 2nd line antimalarial medicines should be routinely carried out and data made available for decision-making due to the threat of emergence and spread of artemisinin resistance in malaria-endemic countries, especially in Africa. In line with this WHO recommendation, Rwanda Ministry of Health (MOH) is conducting the TES to determine the efficacy of artemether-lumefantrine (ALN), which has been used in Rwanda for the last 14 years) and dihydroartemisinin-piperaquine (DHA-PPQ), another WHO-approved drug for the treatment of uncomplicated malaria which, though, has not been used in Rwanda, is being considered for adoption as a second line or alternative first line treatment. The objective of this study is to inform the decisions or actions made by a public health authority (Rwanda Rwanda Ministry of Health) to inform decision on revision of the antimalarial guidelines and policy in Rwanda. Jhpiego's Impact Malaria project in Rwanda, with funding and technical oversight from US President's Malaria Initiative (PMI) through USAID and CDC, will support the Rwanda MOH in its effort to evaluate the efficacy of ALN and DHA-PPQ in the treatment of children with uncomplicated malaria. The study is being conducted by Rwanda MOH, with technical support and funding by PMI-USAID through Jhpiego in Rwanda.
WHO recommends that Therapeutic Efficacy Studies (TES) for 1st and 2nd line antimalarial medicines should be routinely carried out and data made available for decision-making due to the threat of emergence and spread of artemisinin resistance in malaria-endemic countries, especially in Africa. In line with this WHO recommendation, Kenya Ministry of Health (MOH) is conducting the TES to determine the efficacy of artemether lumefantrine (AL), and dihydroartemisinin-piperaquine (DHP), the first and second line treatment of uncomplicated malaria in Kenya. The objective of this study is to inform the decisions or actions made by a public health authority (Kenya Ministry of Health) to inform decision on revision of the antimalarial guidelines and policy in Kenya. Jhpiego's Impact Malaria project in Kenya, with funding and technical oversight from US President's Malaria Initiative (PMI) through USAID and CDC, will support the Kenya MOH in its effort to evaluate the efficacy of AL and DHP in the treatment of children with uncomplicated malaria. The study is being conducted by Kenya MOH, with technical support and funding by PMI-USAID through Jhpiego in Kenya.
Spatial repellents are chemical-based devices that when placed in a room, make that room non-conducive for mosquitoes. These tools can be used to help in the fight against vector borne diseases such as malaria and dengue. However, their efficacy in reducing mosquito biting and therefore malaria transmission has never been evaluated in Africa. This study will evaluate the efficacy of a spatial repellent in reducing mosquito biting on human beings and measure the impact any reduced biting will have on malaria transmission. The investigators will recruit and follow-up 5,984 children between 6 months and <10 years of age in Busia County to determine how many times they will be infected with malaria in villages where the investigators will have distributed spatial repellents and compare the rate of infection to villages where the investigators will not have distributed the repellent devices. Additionally, the investigators will measure whether the distribution of spatial repellents in one village will drive mosquitoes to their neighboring houses thereby increasing malaria transmission in those areas. The children participating in the study will be divided into 3 groups (cohorts). The first group will be followed up during the first 4 months before any intervention is distributed and the purpose here will be to determine that the villages are comparable. After this, the investigators will recruit the next group of participants and follow them up for 1 year and repeat this again for another year. During the follow-up, the children will be asked to come to the health facility where they will be tested for malaria using RDT or blood slide for microscopy. Every two weeks, a member of the study team will come to the participant's house and ask them if they had any history of fever. If the participants had fever, they will be tested for malaria. All children who turn out to be positive for malaria by RDT will be treated free of charge. At the same time, the investigators shall also perform mosquito collections to determine the impact of spatial repellents on the density of Anopheles mosquitoes.