View clinical trials related to Malaria.
Filter by:Study designed to evaluate safety and tolerability of a genetically attenuated P. falciparum (GAP3KO) that arrests early in the liver stage of the parasite life cycle. Study will also confirm the attenuation of the GAP3KO parasites using peripheral blood smears. Secondary objectives are to evaluate the humoral immune responses to GAP3KO.
The primary objective of the study is to demonstrate and quantify the protective efficacy (PE) of spatial repellent products in reducing the incidence of malaria infection in human cohorts. The null hypothesis (H0) is that there is no difference in malaria incidence between intervention and control arms.
The proposed study is a four-arm randomized control trial (RCT) in 48 villages in the Lakes region in Tanzania comparing the relative effectiveness of 4 vector control interventions for reducing malaria transmission and controlling vector populations in an area where An gambiae s.s is pyrethroid and carbamate resistant: 1/ a standard long lasting insecticidal net (LLIN), 2/ a LLIN which incorporates a piperonyl butoxide (PBO) synergist, 3/ a long lasting indoor residual spray (IRS) formulation used in conjunction with standard pyrethroid LLIN or 4/ the long lasting indoor residual spray (IRS) formulation used in conjunction with the LLIN which incorporates a PBO synergist. The trial will provide epidemiological, entomological, economic and social evidence of impact, as the investigators shall be measuring the reductions in malaria prevalence and malaria transmission rates EIR, and changes in the frequency of resistance, mosquito species ratios and economic cost effectiveness. The proposed trial will demonstrate whether the novel LLIN and long lasting IRS formulation will be more effective for controlling An.gambiae s.s. and reducing malaria prevalence than current practice with the conventional LLIN. There is great interest in conducting this trial. Alternative vector control products are limited and most new insecticides are not suitable for use on LLINs or as IRS.
This is a double-blinded, randomized controlled trial of 200 HIV-infected pregnant women living in Tororo, Uganda, an area of high malaria transmission. HIV-infected pregnant women between 12 and 28 weeks gestation will be randomized to receive enhanced malaria chemoprevention with monthly dihydroartemisinin-piperaquine (DP) versus monthly DP placebo. Their HIV-exposed children will receive the same prevention regimen from 2 to 24 months of age to which the mothers were randomized. All women will receive daily trimethoprim-sulfamethoxazole (TS) throughout the study per Uganda Ministry of Health guidelines. Children will also receive daily TS from 6 weeks to 24 months of age. TS will be considered a study drug only in infants and children beginning 6 weeks after cessation of breastfeeding and upon exclusion of HIV infection. Women and their children will be followed for 36 months after delivery. In a subset of the study population, the investigators will conduct an intensive pharmacokinetic study that will evaluate pharmacokinetic exposure of DP and EFV. The investigators will also measure HIV-related outcomes among the women enrolled in the study. The investigators will test the hypothesis that for HIV-infected mothers and HIV-exposed infants, that enhanced versus standard malaria chemoprevention in HIV-infected pregnant women and their children will reduce the incidence of malaria among children from 0 to 24 months of age and improve the development of naturally acquired antimalarial immunity.
Primaquine (PQ) is currently the only available drug that can clear the mature transmission stages of P. falciparum parasites. PQ was previously shown to clear gametocytes that persist after artemisinin-combination therapy. A major caveat to the use of primaquine in mass adminsitrations for the reduction of malaria transmission is that metabolism of the drug in individuals with glucose-6 phosphate dehydrogenase (G6PD) deficiency can lead to transient haemolysis. The haemolytic side effect of PQ is dose-related. Haemolysis is more commonly observed after prolonged PQ treatment but has also been observed in African populations following a single dose of PQ. This haemolysis was self-limiting, largely restricted to G6PD deficient individuals and did not lead to clinical symptoms. Nevertheless, any drug-induced haemolysis is reason for concern and the World Health Organization has therefore reduced the recommended dose of single low dose primaquine from 0.75mg/kg to 0.25mg/kg. This dosage is deemed safe without prior G6PD or Hb screening. However, there is limited direct evidence on the extent to which this dosage of PQ prevents malaria transmission to mosquitoes. In the current study, the investigators will assess the efficacy of DP in combination with low-dose PQ to prevent onward malaria transmission. The investigators will perform the investigators study in individuals aged 5-15 years who are carry microscopically detectable densities of P. falciparum gametocytes. This age group is chosen because asexual parasite carriage and gametocyte carriage are common in this age group. All enrolled individuals will receive a full three-day course of DP, and will be randomized to receive a dose of primaquine or placebo with their third dose. Efficacy will be determined based on gametocyte carriage during follow-up, measured by molecular methods. For all individuals, the effect of treatment on infectivity to mosquitoes will be assessed by membrane feeding assays at two time points.
The purpose of this study is to assess two types of new malaria vaccines in different combinations. The study will enable us to assess: 1. The ability of the vaccines to prevent malaria infection. 2. The safety of the vaccines in healthy participants. 3. The response of the human immune system to the vaccines. We will do this by giving 48 participants three sets of vaccinations over 8 weeks, then exposing them to malaria infection by allowing mosquitoes infected with malaria to bite under carefully regulated conditions. We will follow participants closely to observe if and when they develop malaria. If the vaccine combination provides some protection against malaria, participants will take longer to develop malaria than usual or will not develop malaria at all. We will also recruit 4 individuals to be control subjects - these participants won't receive any vaccinations but will be challenged with malaria. Vaccinated volunteers who do not develop malaria infection in the blood after being infected with malaria by mosquito bite the first time may be invited back to be again infected with malaria in a repeat challenge experiment. This would happen approximately 5-7 months after the first challenge. The purpose of this second challenge will be to see how long the protection of the investigational vaccine against malaria lasts.
Malaria and HIV are found in the same regions of the world and developing countries are most affected by both diseases. For malaria, new drugs have been introduced called ACTs. These drugs are effective against malaria but little is known about how the levels of these drugs in blood relate to how effective these drugs are. For HIV, a new drug has been developed called dolutegravir which has potential to be widely used in developing countries. This proposal will explore how dolutegravir affects the drug levels of these antimalarial drugs and vice versa. In total, 46 healthy volunteers will participate in this study.
The study is designed to establish infectivity of Plasmodium falciparum sporozoites (PfSPZ) via intravenous (IV) administration in three groups with different malaria immunity-status: 1. Adults with a history of lifelong malaria exposure without sickle cell trait (HbAA) 2. Adults with a history of lifelong malaria exposure with sickle cell trait (HbAS) 3. Adults without previous malaria episodes without sickle cell trait (HbAA) Initially a dose of 3,200 PfSPZ will be given and the time until thick blood smear positivity after challenge will be assessed. If in any of the groups with a history of lifelong malaria exposure, 50% or less of individuals become thick blood smear positive during the 28 days post injection of PfSPZ Challenge, the dose will be increased 4-fold to 12,800 PfSPZ in this group.
This is a first-in-human study of MMV390048. The study will evaluate the safety, tolerability and pharmacokinetic properties of escalating single and multiple doses of MMV390048 when administered to healthy male volunteers and female volunteers of non-childbearing potential. In addition, the effect of food on the pharmacokinetics and tolerability of MMV390048 will be investigated.
This was a single-center study using induced blood stage malaria infection to characterize the activity of ACT-451840 against early Plasmodium falciparum blood stage infection