Active clinical trials for "Malaria"

The primary objectives of this study are to assess the safety and feasibility of blood-stage controlled human P. vivax malaria infection (CHMI) in healthy adult Thai volunteers through experimental injection of cryopreserved P. vivax infected erythrocytes, and to choose the optimal inoculation dose for future P. vivax CHMI studies. In this study, blood-stage CHMI will be conducted in 8 volunteers per inoculum stock who will each be infected with P. vivax by experimental injection with cryopreserved P. vivax infected erythrocytes, which were collected from the controlled human Plasmodium vivax malaria infection model through experimental sporozoite infection in Thai adults (NCT04083508) . There are currently 2 stocks of inocula from 2 volunteers in the NCT04083508 study, which have differing quantities and stages of parasites. The total number of volunteers of this study will be up to 16 (8 volunteers per inocula stock). The volunteers will be monitored closely as in-patients in the Hospital for Tropical Diseases, and will be treated according to the Research Proposal. This study is funded by the UK Wellcome Trust. The grant reference number are Oxford/MORU: 212336/Z/18/Z and 212336/Z/18/A, and Mahidol University: 212336/A/18/Z and 212336/A/18/A.

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: what are the reasons for the continued high infection rates in the SMC-targeted population; what are the implications for transmission of sub-optimal SMC in children less than 5 years old; 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.

This study is a human challenge study to assess the feasibility and safety of controlled human malaria infection (via P. vivax sporozites) in healthy volunteers, and to develop a bank of P. vivax-infected blood for use in future controlled human P. vivax malaria infection studies. Additional objectives are to obtain data on host immune response to P. vivax infection and pre-treatment gametocytaemia. This study is funded by the UK Wellcome Trust. The grant reference number are Oxford/MORU: 212336/Z/18/Z and 212336/Z/18/A, and Mahidol University: 212336/A/18/Z and 212336/A/18/A.

The BOHEMIA program consists of a combination of studies organized around a central community prevention mass drug administration protocol and four sub-studies (i.e.; social science, entomology, health economics, and environmental), each written as an individual protocol. The protocol is central but used in two separate, individually powered trials in Mozambique and Kenya. The trials have been powered on the efficacy outcome and designed to meet the requirements of WHO´s preferred product characteristics (PPC) for endectocides.

Daily iron (ferrous sulfate, 2 mg/kg/day) or placebo syrup for first four months (112 days) of the 12-month (336-day) study. Children in the immediate iron group will receive iron syrup for the first three months (84 days) and placebo syrup for the fourth month. Children in the delayed iron group will receive placebo syrup for the first month (28 days) and iron syrup for the second, third, and fourth months.

A clinical study to assess the safety and efficacy of alternative regimens of primaquine for radical cure of vivax malaria in glucose 6-phosphate dehydrogenase (G6PD) deficient. G6PD deficient patients with P. vivax monoinfection will be treated with either weekly or delayed one-week course of primaquine, and the currently recommended by national guideline, 12-week chloroquine regimen to compare treatment safety among groups. All groups will be actively monitored for hemolysis during treatment and will have six-month follow-up period to assess treatment efficacy.

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 5 sites of the four oral ACTS artemether-lumefantrine (AL), Amodiaquine-Artesunate (AQ-AS), Dihydroartemisinin-Piperaquine (DHP) and Pironaridine-Artesunate for the treatment of uncomplicated malaria in children aged<5 years.

Single-center phase II/III clinical investigation of the pharmacokinetics and pharmacodynamics of artemether-lumefantrine and dihydroartemisinin-piperaquine for gametocyte clearance and post-treatment chemoprotection in Zambian children with uncomplicated falciparum malaria.

The MIC-DroP trial will test the hypothesis that preventing early life blood-stage malaria antigenic exposure with intermittent preventive therapy (IPT) enhances protective immunity to malaria. This study will take advantage of a unique opportunity to study infants born to mothers followed in a NIH-funded randomized controlled trial of novel intermittent preventive therapy in pregnancy (IPTp) regimens (NCT04336189). MIC-DroP will leverage the parent IPTp study to enroll 924 children who will be randomized at 8 weeks of age to receive no intermittent preventive therapy in childhood (IPTc), monthly DP from 8 weeks to 1 year of age, or monthly DP from 8 weeks to 2 years of age, and then follow children to 4 years of age. The primary outcome of this study will be to compare the incidence of malaria from 2 to 4 years of age among children randomized to receive no IPTc, monthly DP for the first year of life, or monthly DP for the first two years of life. Investigators will also leverage this trial to evaluate immune development during early childhood.

Objective: The aim of this study is to evaluate the impact of enhanced malaria cases detection using molecular testing (LAMP) on maternal and infant morbidity and mortality in a prospective study design. A pragmatic randomized control diagnostic trial will be conducted from October 2020 until March 1 2022 in pregnant mothers at sites in Ethiopia. Both symptomatic and asymptomatic first and early second trimester pregnant women will be included in the study and individually randomized to either standard of care or enhanced cased detection arms using LAMP for malaria. Women (n=2583) will be enrolled during a seven-month period encompassing the peak transmission seasons and then followed until delivery. In the standard of care arm, venous blood sample will be collected from each study participant and the presence of Plasmodium infection will be diagnosed by microscopy in symptomatic patients. Pregnant women who test positive for malaria will be referred and treated for malaria with quinine or artemisinin combination therapies (ACTs) as per national guidelines. In the intervention arm, mothers who are symptomatic or asymptomatic will be tested by a commercially available CE-approved LAMP malaria test and microscopy/RDT for malaria at each clinic visit and treated if positive by any test. Pregnant mothers who require treatment will be referred and treated with either quinine or artemisinin combination therapy (ACTs) as per national guidelines. The primary outcome is the proportion of deliveries with low birth weight based on WHO definition, with secondary outcomes of:(i)absolute birth weight; (ii) maternal hemoglobin;(ii) neonatal hemoglobin at birth;(iv) neonatal mortality; (v) stillbirth; and (vi) prematurity in each arm of the study.