View clinical trials related to Malaria.
Filter by:This project aims to disentangle the role of host immune resistance and disease tolerance in afebrile malaria infections, with the goal of guiding context-adapted tactics to target this hidden reservoir, as well as to develop new approaches to clear malaria infection and reduce its severity through host-directed therapies.
Close monitoring of malaria in pregnancy can help to quickly identify changes in malaria burden and related adverse outcomes, especially in areas embarking in malaria elimination activities. The easy access of pregnant women through antenatal clinics, combined with the potential of pregnancy-specific serology to assess cumulative exposure to malaria, can provide the basis for new sentinel surveillance methods. Such an approach has the potential to guide clinical practice and the choice of malaria control/preventive tools adapted to areas of different transmission intensity, as well as to generate sensitive metrics of transmission during malaria elimination activities.
This is a classical in vivo clinical trial, following World Health organization's recommendations, ran as a multisite study within Mozambique trying to assess the efficacy and safety in 4 sites of the two oral ACTS artemether-lumefantrine (AL) and Amodiaquine-Artesunate (AQ-AS), first line treatment for malaria in mozambique, for the treatment of uncomplicated malaria in children aged<5 years.
The purpose of this study is to evaluate the safety, tolerability, and efficacy of VRC MALMAB0100-00-AB (CIS43LS), a human monoclonal antibody, against naturally occurring Plasmodium falciparum (Pf) infection.
Phase 1, single -centre study in 2 parts. The study designs for each part are well established for first-in-human studies and are appropriate to assess safety, tolerability and preliminary pharmacokinetics.
This was a randomized, subject and investigator-blinded, placebo-controlled, single and multiple ascending intravenous (iv) dose study in healthy subjects to assess the safety and tolerability of KAE609 given in the vein.
A double-blind, individual randomised trial will be undertaken in children under five years of age living in areas of Burkina Faso or Mali where the transmission of malaria is intense and highly seasonal to determine whether administration of further doses of the malaria vaccine RTS,S/AS01 at the beginning of the malaria transmission until children reach the age of five years 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. This is a two year extension of the current RTS,S/AS01 + SMC trial to continue the trial until the study children reach the age of five years, the current age at which SMC is recommended until.
Childhood mortality is decreasing worldwide. However, many sub-Saharan countries still have high children under 5 mortality rates. The MORDOR trial in Niger, Tanzania, and Malawi demonstrated a near 14% decrease in all-cause child mortality following biannual azithromycin in children 1-59 months. Current trials in Burkina aim to replicate these results from the MORDOR study with mass azithromycin treatment. The investigators conducted an individually randomized placebo-controlled trial in Burkina Faso called the Gut and Azithromycin Mechanisms in Infants and Neonates Trial (GAMIN: NCT03676751) to evaluate the effect of a single dose of azithromycin (20 mg/kg) on potential mediators of the effect of azithromycin on all-cause mortality and to evaluate changes in the gut microbiome longitudinally (results pending). Here, the investigators propose to conduct an expansion of the original GAMIN trial. In GAMIN II, the investigators will evaluate 450 additional 1-59 month old children longitudinally for 6 months with a focus on stool collection and malaria status. Objectives: 1. To determine the effect of a single dose of azithromycin for children aged 8 days-59 months on malaria. The investigators hypothesize that a single dose of azithromycin will result in a reduced malaria status within the treatment group compared to the placebo group after a 14 day period within children ages 8 days-59 months. The study will be conducted in Nouna Town in northwestern Burkina Faso.
This is a single-centre, open-label, Phase Ib study designed to assess if intravenous injection of approximately 3200 P. falciparum (NF54 strain) sporozoites can be safely administered to achieve blood-stage parasitaemia with a kinetics/PCR profile that will allow for the future characterisation of antimalarial blood-stage activity of new chemical entities in a relatively small number of participants during early drug development. Healthy, malaria-naïve adults, aged 18-55 years, will be enrolled in a maximum of 2 cohorts. Enrolment into the cohorts will proceed sequentially, with two target levels of parasitaemia, i.e., 5000 parasites/mL blood in Cohort 1 and 10000 parasites/mL blood in Cohort 2. (Based on observed levels of parasitaemia in Cohort 1, the target threshold for treatment in Cohort 2 was maintained at 5,000 p/mL (vs 10,000 p/mL in the protocol)). The 3-day antimalarial therapy regimen will be further administered and monitored until parasite clearance. Safety and tolerability will be monitored during the whole study duration.
Globally, malaria prevalence in 2016 was reported to have increased with 445,000 deaths, 91% of which occurred in sub-Sahara Africa with more than 75% being children. Individuals who carry the malaria parasite can either be symptomatic (showing signs and symptoms) or asymptomatic (without signs and symptoms). Asymptomatic malaria parasitaemia pose a very serious threat to malaria control efforts as they serve as reservoirs that fuel the transmission process. Therefore, interventions that target community-wide clearance of asymptomatic parasitaemia can drastically reduce malaria prevalence in the population and lead to elimination especially in endemic areas. Mass parasite clearance can deplete the parasite reservoirs and lower the transmission potential. Efforts are ongoing to scale-up interventions that work such as use of Long Lasting Insecticidal Nets (LLIN), Intermittent Preventive Treatment in children (IPTc), and test, treat and track (TTT). However, there is need for mass testing, treatment and tracking (MTTT) of the whole population to reduce the parasite load before implementing the aforementioned interventions. Though, Seasonal Malaria Chemoprophylaxis (SMC) is adopted for selected localities in Ghana, the impact of such interventions could be enhanced, if combined with MTTT at baseline to reduce the parasite load. IPT of children in Ghana has demonstrated a parasite load reduction from 25% to 1%. However, unanswered questions include - could this be scaled up? What can be the coverage? What is needed for MTTT scale -up? In a pilot in Ghana, a coverage of more than 75% was achieved in target communities and reduced asymptomatic parasitaemia by 24% from July 2017 to July 2018. It is important to generate time series data to better analyse and understand the prevalence trends as well as the bottlenecks. In designing interventions that aim at reducing the burden of malaria in children under five, for example, MTTT has largely been left out. This study explores the scale-up of interventions that work using community volunteers, hypothesising that implementing MTTT complemented by community-based management can reduce the prevalence of asymptomatic malaria parasite carriage in endemic communities. The effect of the interventions will be observed by comparing baseline data to evaluation data. This study will document the challenges and bottlenecks associated with scaling-up of MTTT to inform future efforts to scale-up the intervention.