View clinical trials related to Malaria, Falciparum.
Filter by:This is an open i.e. not blinded, cluster-randomised, controlled intervention study. The study will use a factorial design to estimate the protective effectiveness of mass drug administrations, mass vaccinations, combined mass vaccinations and drug administrations versus the current standard of care.
Comparing the efficacy of the combination treatment of bitter melon fruit extract (Momordica charantia) with primaquine (MC+PQ) against the combination of dihydroartemisinin + piperaquine + primaquine (DHP+PQ) on patients with Plasmodium falciparum and Plasmodium vivax without complications in Manokwari, West Papua, Indonesia. The research was conducted from January 2019 to April 2019 at Manokwari Regional General Hospital, West Papua. Open label, 2 parallel randomized clinical studies with Plasmodium falciparum malaria patients without complications (Study 1) and patients with Plasmodium vivax malaria without complications (Study 2). The randomized clinical trial divided in 2 treatment groups, namely the MC+PQ and DHP+PQ. The Success of the treatment was determined by the combination of blood schizontocidal therapy in radical cure. The overall final assessed results were the average value of parasitological failure, hematological measurements, liver function, kidney function, blood lipid levels, blood glucose levels and adverse events until day 42.
This is an individually randomized, controlled, single blind three arm clinical trial of malaria chemoprevention strategies Arm 1: Intermittent preventive treatment with dihydroartemisinin-piperaquine (IPT-DP). Arm 2: Intermittent preventive treatment with sulfadoxine-pyrimethamine (SP) plus chloroquine (CQ) (IPT-SPCQ). Arm 3: Control - students will receive standard of care (no preventive treatment). Outcomes include P. falciparum infection and parasite density, anemia, cognitive function and educational testing, as well as infection prevalence in young children sleeping student's households to assess the impact on transmission.
This is an open-label, adaptive study using the P. falciparum induced blood stage malaria (IBSM) model to characterise the pharmacokinetic/pharmacodynamic (PK/PD) profile and safety of MMV367 (the IMP). Up to 18 participants will be enrolled in cohorts of up to 6 participants each. The study will proceed as follows for all participants: - Screening period of up to 28 days to recruit healthy adult participants. - Day 0: Intravenous inoculation with approximately 2,800 viable P. falciparum-infected red blood cells. - Days 1-3: Daily follow up via phone call or text message. - Days 4-7: Daily site visits for clinical evaluation and blood sampling to monitor malaria parasite numbers via quantitative polymerase chain reaction (qPCR). - Day 7 PM: Start of confinement within the clinical trial unit. - Day 8: Administration of a single oral dose of the IMP (MMV367). Different doses of MMV367 will be administered across and within cohorts in order to effectively characterise the PK/PD relationship. - Days 8-11: Regular clinical evaluation and blood sampling while confined to monitor malaria parasite numbers and measure MMV367 plasma concentration. - Day 11 AM: End of confinement within clinical trial unit. - Days 12-23: Outpatient follow-up for clinical evaluation and blood sampling. - Day 24: Initiation of compulsory definitive antimalarial treatment with Riamet® (artemether/lumefantrine) and/or other registered antimalarials if required. Treatment will be initiated earlier than Day 24 in the event of: - Insufficient parasite clearance following IMP dosing - Parasite regrowth following IMP dosing Characterising the pharmacokinetic/pharmacodynamic relationship of MMV367 - Participant discontinuation/withdrawal, - Investigator's discretion in the interest of participant safety. - Day 27: End of study visit for final clinical evaluation and to ensure complete clearance of malaria parasites.
Malaria is a major public health problem. There were around 240 million cases of malaria and 627,000 deaths worldwide in 2020. There is a great need for a safe, effective malaria vaccine and the team at University of Oxford is trying to make vaccine(s) which can prevent serious illness and death. This study is being done to assess an experimental malaria vaccine for its ability to prevent malaria illness. This is done using a 'blood-stage challenge model'. This is when volunteers are infected with malaria parasites using malaria-infected red blood cells. The vaccine we are testing in this part of the study is called "RH5.2-VLP". It is given with an adjuvant called "Matrix-M". This is a substance to improve the body's response to a vaccination. RH5.2-VLP is being tested for the first time in humans in this trial. The Matrix-M adjuvant has been given to tens of thousands of people, with no major concerns, such as illness. The aim is to use this vaccine and adjuvant to help the body make an immune response against parts of the malaria parasite. This study will assess: 1. The safety of the vaccine in healthy participants. 2. The response of the human immune system to the vaccine. 3. The ability of the vaccine to prevent malaria illness (Group 2 only). We will do this by giving healthy adult participants (aged 18-45) three of the vaccines and/or expose participants to malaria infection at the Centre for Clinical Vaccinology and Tropical Medicine (CCVTM), Churchill Hospital in Oxford. We will then do blood tests and collect information about any symptoms that occur after vaccination. There will be 19 to 54 visits, lasting between 3 months to 2 years and 2 months.
The emergence and spread of drug resistance is a major obstacle to combating malaria. The World Health Organization (WHO) recommends that regular efficacy monitoring should be undertaken by all malaria endemic countries that have deployed artemisinin combination therapy (ACT), to help early detection of drug resistant strains of the parasite and contain their rapid spread. Artemether-lumefantrine (AL) has been the first-line antimalarial drug against uncomplicated Plasmodium falciparum malaria in the Philippines since 2009, with primaquine as an anti-relapse drug. The objective of this study is to assess the safety and efficacy of artemether-lumefantrine for the treatment of uncomplicated P. falciparum infections in the Philippines. The study was conducted in three (3) municipalities (Bataraza, Brooke's Point, and Rizal) of Palawan. Single-arm prospective study of a 28-day follow-up was conducted from February 2017 to December 2018 according to the revised WHO 2014 drug efficacy study protocol. Study subjects were consenting individuals seeking care at the selected Rural Health Units, who were aged >6 months old to 59 years old with confirmed uncomplicated P. falciparum infections. AL was administered for 3 days according to body weight (Days 0, 1 and 2) and primaquine 0.75 mg/kg body weight single dose was given on Day 3 following the National Treatment Guidelines.
Artemether-lumefantrine has been used as a first-line treatment for uncomplicated Plasmodium falciparum infection since 2009 in the Philippines. The 28 day therapeutic efficacy study was conducted between February 2015 and December 2015, in accordance with WHO guidelines in the three (3) municipalities (Bataraza, Brookes and Rizal) of Palawan. Attempt was made to include Panglima-Sugala, Tawi-Tawi; however, due to the decline in the number of malaria cases, no evaluable subject was enrolled. The study subjects were febrile individuals between > 6 months old and 59 years old with confirmed uncomplicated P. falciparum. They were treated with artemether-lumefantrine (20 mg and 120 mg, respectively) administered 3 days (Days 0, 1 and 2) according to body weight. Primaquine (0.75 mg base/kg body weight single dose) was given on Day 3. Outcomes were classified as early treatment failure (ETF), late clinical failure (LCF), late parasitological failure (LPF) and adequate clinical and parasitological response (ACPR).
The goal of this open-label randomised, controlled, non-inferiority trial is to assess and compare the efficacy, tolerability and safety of a fixed dose TACT artemether-lumefantrine-amodiaquine (ALAQ) to the ACTs artemether-lumefantrine (AL), artesunate-amodiaquine (ASAQ) (with single low-dose primaquine in some sites) for the treatment of uncomplicated Plasmodium falciparum malaria in patient. The main question it aims to answer is whether ALAQ, a fixed dose TACT, is as efficacious, safe and tolerable in comparison with AL and ASAQ. Participants will be enrolled, admitted and randomised to receive the study drug (ALAQ, AL or ASAQ). Patients will receive directly observed treatments and will be followed up at least once daily for the first 3 days after enrolment followed by weekly visits from D7 up to D42. Patients will be asked to report to the clinics between scheduled visits in case of any illness or other symptoms or complaints.
Malaria is caused by protozoan parasites of the genus Plasmodium and it is the most important parasitic disease in terms of mortality and morbidity. Estimates of 247 million malaria cases and 619.000 deaths worldwide were reported by WHO for the year 2021 (1). Plasmodium falciparum can lead to severe malaria and accounts for 90% of malaria deaths that mainly occur in children below the age of 5 years in Sub-Saharan Africa. A simplified treatment regimen, ideally a single-day cure (or at most 2-day dosing regimen), of uncomplicated malaria due to P. falciparum would be the magic in the antimalarial armamentarium. Improving treatment adherence is one of the key factors in reducing mortality and morbidity and also the transmission of malaria, and such a regimen would substantially increase adherence. To find a new non-artemisinin combination therapy with a shorter regimen, ideally, a single-dose cure, with low resistance potential would be the aim. The two compounds tested here are ZY19489, a triaminopyrimidine, and ferroquine (FQ), a next-generation 4-aminoquinoline. Both compounds show unique features in terms of long half-life, and activity against current drug-resistant strains. Therefore, the main goal of this clinical trial is to assess the safety of the ZY19489-FQ combination given as a 1- or 2-day dose regimen.
Seasonal Malaria Chemoprophylaxis (SMC) is a fundamental component of malaria control. The SMC program involves that sulfadoxine-pyrimethamine plus amodiaquine (SPAQ) is given to children below the age of 5 years during the peak transmission season in areas of seasonal malaria transmission. Yet, its efficacy is increasingly below expectations. This study involves an Operational evaluation of a modified existing intervention and its implementation are prepared in direct interaction with the Ministry of Health (MoH) to tailor data collection to local needs. The main questions it aims to answer are: 1. what are the reasons for the continued high infection rates in the SMC-targeted population; 2. what are the implications for transmission of sub-optimal SMC in children less than 5 years old; 3. can the impact of SMC be improved by including older age groups that would both expand the population that experiences direct chemoprophylactic benefits and concurrently reduce transmission to the wider community Researchers will: i) Compare SMC effectiveness as implemented by the national malaria control program and SMC implemented in a research context where all doses are directly observed. ii) Quantify the infectious reservoir and the contribution of different age groups to transmission with conventional SMC (<5 years) and extended SMC (<10 years) iii) Determine the impact of drug resistance and drug absorption on SMC efficacy iv) Understand social barriers and enablers interfering with SMC efficacy and how SMC uptake is related to health equity with special attention to gender inequalities. v) Quantify SMC efficacy decay under programmatic conditions and key drivers of this decay.