View clinical trials related to Malaria.
Filter by:The study is to be performed in public health facilities in Central and West Africa where Pyramax will be used as treatment of uncomplicated malaria episodes, including repeat episodes. The study is to assess the safety of Pyramax, particularly in patients with underlying liver function abnormalities, in patients who have co-morbid conditions, such as HIV, and also in very small children (<1 year of age).
This is a randomized, three-arm, open-label, clinical trial of malaria chemoprevention in children with sickle-cell anemia (SCA) at a single site in Homa Bay, Kenya. The study will enroll 246 children under 10 years of age, randomize participants 1:1:1 to one of three malaria chemoprevention regimens, and follow participants monthly for 12 months in order to record clinical episodes of malaria or SCA-related morbidity. Analyses will compare the efficacy of each regimen to prevent malaria and SCA morbidity.
This is a cross-sectional and multicentre clinical trial to study the performance of the Histidine Rich Protein 2 (HRP2) highly sensitive rapid diagnostic test (HS-RDT) for the detection of malaria during pregnancy in low transmission settings from Colombia and Indonesia. The new HS-RDT will be compared with conventional good quality RDTs, microscopy, and NAATs [loop-mediated isothermal amplification (LAMP), nested PCR (nPCR)], in peripheral blood samples with quantitative reverse transcription PCR (qRT-PCR) as reference standard.
This Phase 1 trial will include 16 subjects who will receive the Genetically-attenuated p52-/p36-/sap1- Plasmodium falciparum Parasites (GAP3KO) vaccine administered by the bite of approximately 200 infected Anopheles stephensi Mosquitoes in a controlled clinical environment and 12 Controlled Human Malaria Infection (CHMI) infectivity controls (six for each of the two CHMIs). Subjects will be observed for adverse events after each GAP3KO administration. Solicited local and systemic Adverse Events (AEs) will be recorded on a memory aid beginning of the day of first vaccine administration and continuing through 28 days after the last administration. During the vaccination phase clinical laboratory evaluations for safety will be performed on venous blood. Unsolicited AEs will be collected from the day of first vaccination through 28 days after last vaccination and serious adverse events (SAEs) will be collected from the day of first GAP3KO administration through the end of study follow-up. Subjects will be monitored for possible breakthrough peripheral parasitemia with qRT-PCR testing. Four weeks after the last GAP3KO administration, all subjects who completed the immunization phase (up to 16) and a group of six malaria-naïve infectivity controls will be challenged on the same day with wild-type Plasmodium falciparum NF54 sporozoites. Approximately twenty-six weeks after that challenge, all of the protected subjects in Arms 1 and 2 (up to 16) and another six malaria-naïve infectivity controls will receive five infectious A. stephensi mosquito bites on the same day using standard CHMI procedures. For subjects in Study Arms 1 and 2 without documented parasitemia additional post-CHMI follow-ups will occur. For subjects in Study Arms 1 and 2 with documented parasitemia after the first CHMI or who are discontinued for other reasons after the first CHMI, and for the infectivity controls, additional follow ups will occur. Serious Adverse Events (SAEs) will be recorded from the day of CHMI through the end of study follow up and clinical laboratory evaluations for safety will be performed on Day 29 and as clinically indicated (all subjects) and, for subjects with documented parasitemia, on the day malaria treatment is initiated and three days after malaria treatment is initiated. The primary objectives are: 1) To assess the safety and reactogenicity of candidate GAP3KO malaria vaccine when administered by the bite of approximately 200 infected mosquitoes on a five dose schedule, with the first four vaccinations given four weeks apart and the fifth vaccination given eight weeks after the fourth vaccination, and on a three dose schedule, with the second vaccination given four weeks after the first vaccination and the third vaccination given eight weeks after the second vaccination, to healthy malaria-naïve adults aged 18 through 50 years , 2) To confirm attenuation of GAP3KO parasites by assessing the occurrence of breakthrough peripheral parasitemia from the time of first GAP3KO administration through 28 days after last GAP3KO administration.
This study was designed to determine the most effective and tolerable dose at the shortest dosing regimen of the investigational drug KAF156 in combination with a solid dispersion formulation of lumefantrine (LUM-SDF) in adult/adolescent and pediatric patients with uncomplicated Plasmodium falciparum malaria. There is unmet medical need for anti-malarial treatment with new mechanism of action to reduce probability of developing resistance, and for duration shorter than 3 days of treatment and/or reduced pill burden.
This is a first-in-human, randomized clinical trial of PfSPZ-GA1 Vaccine (genetically attenuated PfSPZ) in healthy malaria-naïve adult volunteers. This Phase 1 trial is divided into two stages, Stage A and B. Stage A is an open label, single center, dose escalation study in 19 volunteers. Stage B is a multi-center, double blind, randomized, placebo-controlled trial in 48 volunteers. The primary objective of this study is to determine the safety and tolerability of direct venous inoculation (DVI) of PfSPZ-GA1 Vaccine in healthy adults.
This study is designed to evaluate efficacy, immunogenicity and safety of various dose schedules of GSK Biologicals' candidate malaria vaccines RTS,S/AS01B (adult formulation) and RTS,S/AS01E (pediatric formulation) in healthy malaria-naïve subjects aged 18-55 years. The purpose of this study is to investigate whether changes in dosing schedule are associated with increased or equivalent protection, and to evaluate the immune mechanisms associated with vaccine efficacy under varying dosing schedules.
A double-blind, individual randomised trial will be undertaken in 6000 children under the age of five years living in areas of Burkina Faso or Mali where the transmission of malaria is intense and highly seasonal to determine whether the malaria vaccine RTS,S/AS01 is (a) as effective as SMC with SP + AQ in preventing clinical malaria (b) provides additional, useful protection when given together with SMC. The primary trial end-point will be the incidence of clinical episodes of malaria detected by passive case detection.
In the underlying study, a genetically modified P. berghei parasite is used. P. berghei is one of the four Plasmodium species that causes malaria in rodents. The hypothesis is that immunization of humans with P. berghei will induce a cross-species immune response without the risk of a breakthrough infection. To further increase the potential for protective efficacy, the P. falciparum circumsporozoite (CS)- protein gene has been integrated in the P. berghei parasite, generating a genetically modified P. berghei parasite, abbreviated as Pb(PfCS@UIS4).
Elimination of P. falciparum (PF) malaria across a territory requires universal access to treatment of clinical cases for communities, and specific targeting of places or population groups where malaria transmission persists in spite of generalized access to treatment. In particular, a large prevalence of carriers of PF parasites is suspected to be one of the reasons for malaria persistence. The fact that these carriers are not developing symptoms allow them to harbour and transmit parasites over long periods of time. They are likely to contribute significantly the transmission in their community and even beyond it according to their movement patterns. Identifying these pockets of high asymptomatic carriage is a key component of the malaria elimination strategy, as it allows targeting specific interventions, such as targeted mass-treatment, to quickly drain the asymptomatic reservoir. Strategically to achieve this goal we need to be able to identify quickly and reliably the villages or groups of villages in which the asymptomatic reservoir is large and should be addressed by targeted mass drug administration (MDA). There are no point of care tests currently available to detect asymptomatic carriers accurately. The available Rapid Diagnostic Tests (normal RDT) are designed to diagnose clinically relevant malaria infections. However their sensitivity for asymptomatic malaria carriers is low, since most of these individuals harbor parasitaemias below RDT detection thresholds. Currently, we are relying on high volume blood surveys, in which a small sample of the village population provides a 2mL venous blood sample that can be analysed by ultra-sensitive qPCR. This technique allows detecting very low parasitaemias. However it is a high cost test and technical requirements to use qPCR limit the number of samples that can be tested. In addition as the analysis must be done in a laboratory, the time needed for shipment and analysis results in delays of 4 to 8 weeks between survey and result. Surveying remote, poorly resourced areas adds to the challenge as the samples must be shipped from the field to the laboratory, on cold chain, within 24 to 48h from blood draw. To ensure that asymptomatic individuals are diagnosed in a cost effect and feasible manner, it is vital that a more sensitive RDT is made available for use in the field. Depending on its performance, a sensitive RDT could be used for prevalence surveys to target MDA, or directly for interventions based on treatment of positive individuals (reactive case detection or mass screening and treatment). A new hypersensitive RDT (hsRDT) has now been developed but before it can be utilised for elimination surveys we need to validate both its technical properties (sensitivity and specificity) and its usefulness in the field to detect PfHRP2 presence compared to a gold standard control ELISA (Enzyme Linked Immuno-Sorbent Assay) test. This will allow confirmation of false- and true- positive among samples.