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NCT07545681
The study will evaluate the safety and efficacy of a new antimalarial drug GSK3772701 (a pyrrolidinamide), using different doses and treatment durations, in adult participants with uncomplicated Plasmodium (P.) falciparum malaria.
NCT07520279
This is a multi-site, observational, cross-sectional clinical study that includes geographically diverse sites within and outside the United States.
NCT06652737
This is a first-in-humans randomized, double-blind, placebo-controlled, age de-escalation Phase 1 trial of Plasmodium falciparum (Pf) late liver stage-arresting replication-competent (LARC) sporozoite (SPZ) malaria vaccine (Sanaria® PfSPZ-LARC2 Vaccine) administered to healthy, malaria-exposed adults and children by direct venous inoculation (DVI) to determine safety, tolerability, and immunogenicity. The PfSPZ comprising PfSPZ-LARC2 Vaccine contain a double gene deletion, of the Mei2 and LINUP genes. As a result, they undergo developmental arrest in the late liver stages without releasing merozoites into the blood stream (no blood stage parasites are produced, either asexual or sexual). Because Pf parasites with the LARC phenotype replicate in the liver before disintegrating, they amplify and diversify parasite protein expression and are expected to be a potent immunogen to induce anti-malarial immunity, equaling or exceeding the potency and efficacy of the replication-competent chemo-attenuated Sanaria® PfSPZ-CVac (chloroquine). Because the parasites are intrinsically attenuated, they are also expected to be safe and well tolerated, similar to radiation-attenuated Sanaria® PfSPZ Vaccine and to the single-gene(Mei2)-deleted GA2 parasites (also LARC phenotype) tested at the Leiden University Medical Center (LUMC), which, like PfSPZ-LARC2 Vaccine, disintegrate after replicating in the liver. PfSPZ-LARC2 Vaccine thus avoids the safety concerns associated with PfSPZ-CVac, which uses fully infectious, non-attenuated parasites to achieve replication and depends on co-administered chloroquine for attenuation. In summary, the genetically attenuated PfSPZ-LARC2 Vaccine should combine the best-in-class immunogenic potency and protective efficacy of PfSPZ-CVac (chloroquine) with the excellent safety and tolerability of intrinsically attenuated PfSPZ Vaccine and GA2 vaccine. This trial is designed to test the hypotheses that: 1. The vaccine is safe and well tolerated in each age group. 2. The true rate of breakthrough blood stage infection (or other concerning adverse events) is less than about 5%, with an 95% confidence level (this will be the level of confidence that there are no breakthroughs if no breakthroughs occur in the 50 participants receiving PfSPZ-LARC2 Vaccine).
NCT06735209
This randomized, double-blind, placebo-controlled, Phase 1 trial will enroll up to 22 malaria-naïve, adult participants to test safety, tolerability, immunogenicity, and efficacy of the genetically attenuated Plasmodium falciparum sporozoite vaccine (PfSPZ-LARC2) Vaccine. PfSPZ-LARC2 Vaccine is a late-arresting, replication-competent whole Plasmodium falciparum sporozoite product. We hypothesize that the PfSPZ-LARC2 Vaccine will be safe from breakthrough infection by virtue of deletion of two key parasite genes Mei2 and LINUP and may be more immunogenic and protective than previously tested early arresting sporozoite vaccines. The primary objective is to assess the tolerability and safety of administration of PfSPZ-LARC2 Vaccine, with special attention to the adequacy of attenuation.
NCT05796193
The investigator plan to conduct a three-arm cluster-randomized control trial which compares two next generation of long-lasting Insecticidal Nets (LLINs); Veeralin®LLIN (PBO-py LLIN), Interceptor G2 (chlorfenapyr-py LLIN) to a standard py-LLIN in the department of Tiebissou Southern Bouake city, central Côte d'Ivoire. The primary objective of the project is to evaluate the efficacy of chlorfenapyr-pyrethroid and piperonyl-butoxide (PBO) synergist-pyrethroid LLINs on malaria case incidence in children aged 6 months to 10 years compared to standard pyrethroid-only LLINs. The secondary objectives are to evaluate the efficacy of the two intervention LLINs compared to the standard LLIN on a) malaria infection prevalence in the general population (both children and adults), b) vector density and c) entomological inoculation rate (EIR) (as a proxy for malaria transmission). In addition, changes in phenotypic resistance intensity and selection for molecular resistance mechanisms at baseline and 12 months post-LLIN distribution, in sentinel villages in each treatment arm will be investigate. It is vital to demonstrate that these next generation LLINs which are becoming the standard of care in Sub Saharan AFRICA, are superior to standard py-LLIN in the most extreme resistance areas as this is likely where alternative interventions will be most needed to keep malaria control on track. The trial will generate the first epidemiological evidence on the efficacy of PBO nets compared to py-LLIN in West Africa. UPDATE: Following 1 year of follow-up, the trial was extended to assess the impact of the nets over a 3 year follow-up. In addition, we introduced school-based net top ups in half of the clusters- to evaluate the impact of top-up strategies on net ownership, access and usage and malaria outcomes.
NCT07060794
A trial designed to determine whether there is a clinically significant drug-drug interaction of tafenoquine with DHA-piperaquine or artesunate-pyronaridine using a control arm with radical cure given at the end of follow up (delayed radical cure).
NCT06599593
In the Sahel, the malaria and malnutrition seasons overlap during the rainy season, from approximately July through October. Malaria transmission increases due to the rain and collection of standing water and malnutrition risk increases because this period is the growing season, leading up to the annual harvest in November. Seasonal malaria chemoprevention (SMC) is an antimalarial intervention that involves monthly distribution of sulfadoxine-pyrimethamine (SP) and amodiaquine (AQ) to children aged 3-59 months during the high malaria transmission season. SMC is distributed to millions of children annually in 13 countries in the Sahel, including Burkina Faso. Although SMC distribution is highly effective against clinical malaria in children, malaria remains a major cause of childhood mortality and morbidity in Burkina Faso. The SMC platform, which involves monthly door-to-door delivery of SP-AQ, is an attractive platform for delivery of additional interventions that may augment child health during this vulnerable season. Malaria and malnutrition co-occur in children and communities, and interventions for one may affect the other. For example, previous work by our group and others has shown that antimalarial treatments may improve weight gain in children with malnutrition. The pilot trial is designed to evaluate how the SMC platform may be leveraged to deliver co-interventions with SMC that may augment its efficacy and reduce the incidence of malaria and malnutrition. It is anticipated that the results of this study will provide formative data for the development and implementation of a full-scale study evaluating the effects of integration of nutritional interventions on the SMC platform. It is anticipated that such a strategy may provide optimal protection for children during the most vulnerable period of the year by delivering interventions monthly on an existing platform that directly reaches millions of children each month.
NCT07436104
Background: Age specific mortality rate (ASMR) of 16-60 years is very high in Indian tribal areas due to communicable and non-communicable diseases. Objectives: The primary objective is to reduce the ASMR in 16-60 years age group by at-least 30% from 16 tribal villages of Melghat. The secondary objectives are to reduce cause-specific mortality rates (CSMR) in 16-60 years age group because of diarrhoea, malaria, pneumonia, etc. Design: Community-based, single-centered, parallel-arm, cluster randomised controlled trial. Setting: 36 tribal villages/clusters (research phase: 2004-2015) and 44 new villages (replication phase: 2016-2022) were externally randomized by lottery method to intervention arm (IA) or control arm (CA). Participants: All persons in age group of 16-60 years from inaccessible 80 tribal villages. Interventions: Trained VHWs in IA, provided behaviour change communication, treatment and referral. Except principal investigator, other study staff and participants were double blinded.
NCT07430592
The goal of this Phase 2b study is to examine the safety and efficacy of the combination of SJ733, an investigational agent, and tafenoquine for the radical cure of uncomplicated P. vivax malaria monoinfection in adult participants and determine the contributions of SJ733 to the effect. SJ733 will be administered in a 1-, 2-, or 3-day treatment schedule in combination with a single dose of tafenoquine.
NCT07074665
This trial is a double-blind, randomised, trial recruiting participants from the R21 phase IIb trial (VAC 076) which took place between May 2019 and July 2023 in Nanoro, Burkina Faso. Participants (n=30-40) who have previously received four doses of the 5µg R21/50µg Matrix-M malaria vaccine in VAC 076 will be randomised to receive either 5µg R21/50µg Matrix-M or 10µg R21/50µg Matrix-M. Safety and immunogenicity of a booster at school age at these two different doses will be assessed. Participants will be followed up for one year after the booster.
NCT06549257
Assessing the safety, immunogenicity and ex-vivo efficacy of two transmission blocking vaccines (Pfs25-IMX313 in Matrix M and Pfs48/45 in Matrix M alone and co-administered) in Burkina Faso, in 18-45 years, 12-17 years and 05-11 year olds.
NCT05385510
A Phase Ib trial to evaluate the safety and immunogenicity of R21/Matrix-M™ in African children living with HIV
NCT07385287
This is a phase 2 clinical trial of a Plasmodium falciparum (Pf) late liver stage-arresting replication-competent (LARC) sporozoite (SPZ) vaccine (Sanaria® PfSPZ-LARC2 Vaccine) that will assess field efficacy in Africa. The PfSPZ comprising PfSPZ-LARC2 Vaccine contain a double deletion of the genes encoding the Mei2 and LINUP proteins, both of which are required for transition from liver to blood stage malaria. As a result, mei2-/linup- parasites undergo developmental arrest in the late liver stages without releasing merozoites into the blood stream. No blood stage parasites are produced, either asexual or sexual, and the parasite life cycle does not progress. Because Pf parasites with the LARC phenotype replicate in the liver before disintegrating, they amplify and diversify parasite protein expression and are expected to be a potent immunogen to induce anti-malarial immunity, equaling or exceeding the potency and efficacy of the replication-competent chemo-attenuated Sanaria® PfSPZ-CVac (chloroquine) vaccine approach. Because the parasites are intrinsically attenuated, they are expected to be safe and well tolerated, similar to radiation-attenuated Sanaria® PfSPZ Vaccine, to the replication deficient, early arresting PfSPZ-GA1 Vaccine, and to the single-gene(mei2)-deleted GA2 (LARC1) parasites tested at the Leiden University Medical Center that provided 90% protection against CHMI after a single dose. The active treatments to be assessed for efficacy are one immunization of 6.0x10\^5 PfSPZ or two immunizations with 4.0x10\^5 PfSPZ of PfSPZ-LARC2 Vaccine four weeks apart, timed so that the immunization of the one dose regimen coincides with the second immunization of the two dose regimen. The alternative treatment is immunization with normal saline (placebo group), which is indistinguishable from the test article. The primary variable of interest is whether and when trial participants develop Pf malaria parasitemia during surveillance. Malaria parasitemia will be detected by thick blood smear (TBS), which will be performed every two weeks starting two weeks after the second vaccination (to allow time for the vaccine to work) and extending to week 26 after the second vaccination (24-week surveillance period). Surveillance will continue for 40 weeks but the primary outcome will be determined at 24 weeks of surveillance so the data are comparable to other studies of PfSPZ vaccines.
NCT07416461
The goal of this observational study is to learn about the impact of malaria vaccination on the risk of invasive non-typhoidal Salmonella disease in children below the age of 5. Eligible participants residing in the Kisantu Health Zone (DRC) and presenting fever are enrolled in healthcare facilities and tested for malaria and iNTS. Using a case-control (test-negative) design, the researchers will look at the malaria vaccination status of participants with and without iNTS infection to determine if the malaria vaccine protects against iNTS.
NCT07021430
The purpose of this study is to demonstrate the feasibility, acceptability, and preliminary effectiveness of a focal mass drug administration program for household members of pregnant women to protect against malaria in pregnancy.
NCT07403643
Plasmodium vivax is the most geographically widespread malaria species and the second largest contributor to symptomatic malaria worldwide. It accounts for half of all malaria cases outside Africa, with an estimated 14.3 million clinical vivax malaria cases reported annually, contributing to an annual cost of US$359 million. Children are most vulnerable to infection, with P. vivax prevalence peaking between 2 to 6 years of age. In Papua New Guinea (PNG), there are \>1.5 million suspected P. vivax cases annually, and while P. falciparum infections are the most prevalent, P. vivax transmission is the most intense in the world. P. vivax in PNG provides a unique epidemiological setting in which to assess innovative treatments in children.The complex biology of P. vivax represents a challenge for malaria control and chemotherapy, especially dormant liver-stage parasites (hypnozoites) which can reactivate (relapse) and cause disease at a time remote from the primary infection. Hypnozoite relapse is the primary cause of vivax malaria in endemic regions and is resistant to most antimalarial drugs. Identifying effective treatments for radical cure, the complete elimination of parasites (both blood- and liver-stage), is therefore a priority. The World Health Organization (WHO) recommends a 14-day radical cure regimen for uncomplicated vivax malaria; comprised of blood stage treatment (chloroquine or artemisinin combination therapy (ACT)) and 14 days of the 8-aminoquinoline drug primaquine (PQ; 0.25-0.5 mg/kg/day) for liver-stage cure. More recently, the 8-aminoquinoline tafenoquine has garnered interest as an alternative radical cure agent to primaquine. However, there is limited data on the pharmacokinetics, tolerability and radical cure efficacy of tafenoquine in children. Furthermore, early data suggest a drug interaction between TQ and artemisinin combination therapy (ACT) drugs - which requires further investigation and confirmation. This study will generate critical paediatric safety, tolerability, pharmacokinetic, and preliminary efficacy data for TQ when administered with either artemether-lumefantrine or dihydroartemisinin-piperaquine in PNG children with uncomplicated malaria.
NCT06967519
A longitudinal study with four parallel cohorts with each participant followed for 2 years: two cohorts in Busia (high malaria transmission site) and two cohorts in Kampala (low malaria transmission). Each site will have a cohort of children living with HIV (CLHIV) and HIV- uninfected children and will be age-matched, enrolled in parallel, and followed for two years. All children will be enrolled without malaria infection, as determined by a negative blood smear at baseline.
NCT05567016
This trial will assess the long-term health and socioeconomic impact of interventions targeting low-density malaria infection (LMI) among children in Tanzania
NCT07373301
This clinical study will evaluate an investigational malaria vaccine called PvCS/Montanide ISA-51 to determine whether it is safe and whether it can protect adults from infection with Plasmodium vivax, one of the main parasites that causes malaria. P. vivax malaria is common in tropical regions, including Colombia, and can lead to recurrent fever, anemia, and prolonged illness. Currently, no licensed vaccine effectively prevents P. vivax infection. The investigational vaccine (PvCS) contains synthetic peptides derived from the circumsporozoite (CS) protein located on the surface of P. vivax sporozoites. The vaccine is formulated with the adjuvant Montanide ISA-51 to enhance the immune response. This study aims to assess the safety of the PvCS/Montanide ISA-51 formulation and to determine whether it can prevent malaria after controlled exposure to the parasite. This is a Phase IIa/b, randomized, double-blind, placebo-controlled clinical trial conducted by the Malaria Vaccine and Drug Development Center (MVDC/CIV) in collaboration with ASOCLINIC IPS and the Pacific Health Institute (INSALPA) in Quibdó, Chocó, Colombia. A total of 72 healthy adults aged 18-50 years from malaria-endemic areas will participate. Participants will be randomly assigned in a 2:1 ratio to receive either the PvCS/Montanide ISA-51 vaccine or a placebo. The study product will be administered by intramuscular injection at months 0, 2, and 4. After each vaccination, participants will be monitored for side effects and provide blood samples to measure immune responses, including antibody levels and T-cell activity. Approximately one month after the third vaccination, participants will undergo a controlled human malaria infection (CHMI), during which they will be exposed to P. vivax through the bite of infected mosquitoes under strict medical supervision. Following exposure, participants will be monitored daily using blood tests to detect malaria at the earliest stage. If malaria parasites are detected-or if 21 days pass without infection-participants will receive prompt, effective antimalarial treatment based on Colombian national guidelines. All participants will continue to be followed for up to 12 months after the challenge to ensure safety and assess long-term outcomes. Primary goals of the study include: Determining whether the PvCS/Montanide ISA-51 vaccine prevents P. vivax infection after CHMI. Measuring the time between exposure and first detection of parasites (pre-patent period). Evaluating the safety and tolerability of the vaccine. Secondary goals include: Measuring immune responses generated by the vaccine. Exploring relationships between immune responses and protection from infection. The total duration of the study is expected to be approximately 30 months, including recruitment, immunizations, challenge procedures, and follow-up. Results will help determine whether this vaccine can safely protect adults against P. vivax malaria and guide planning for future larger-scale vaccine trials in endemic populations.
NCT05879224
The proportion of malaria that is the Plasmodium vivax species is increasing in Indonesia. Reducing vivax malaria will require innovative solutions to cure both the blood and liver stages of the disease. This study will evaluate of the feasibility of implementing point-of-care glucose-6-phosphate dehydrogenase deficiency (G6PD) testing. This will be followed by high dose, short course primaquine treatment regimens for patients with vivax malaria, and combined with patient education, surveillance, and pharmacovigilance. We plan to implement the study at 6 health facilities across Indonesia using a staged before-and-after study, with a mixed method evaluation.