View clinical trials related to Malaria.
Filter by:The Novel use Of Hydroxyurea in an African Region with Malaria (NOHARM) study is the first placebo-controlled randomized clinical trial of hydroxyurea treatment in a malaria endemic region. NOHARM has now achieved full enrollment; all children have completed the blinded portion of the protocol and are in the open-label study treatment portion. This extension study of maximum tolerated dose (MTD), addresses the next critical set of questions about the optimal dosing and monitoring of hydroxyurea treatment for children with SCA in low-resource settings. By providing guidance about optimal hydroxyurea treatment, the NOHARM MTD Study will directly inform policies that can transform the health of African children living with SCA.
The purpose of this study is to assess the safety and immunogenicity of novel routes of administration of the candidate malaria vaccines ChAd63 encoding ME-TRAP and MVA encoding ME-TRAP. 30-33 Healthy adult volunteers will be recruited in Oxford. All vaccinations will be administered intravenously or subcutaneously. Each volunteer will receive a single vaccination of ChAd63 ME-TRAP or MVA ME-TRAP at different doses depending on the group.
Background: People get malaria from bites from infected mosquitos. Researchers are studying a vaccine strategy. They will give people malaria parasites by injecting them with live infectious malaria parasites with antimalarial medications and then see if this strategy prevents malaria infection while off antimalarial medications. Objective: To see if combining a high dose of live, infectious malaria parasites (known as Sanaria PfSPZ Challenge) and two FDA approved drugs that kill malaria parasites (pyrimethamine [PYR] OR chloroquine [CQ]) is safe and can provide people protection against malaria. Eligibility: Healthy adults ages 18-50 who: - are not pregnant or breastfeeding or planning on becoming pregnant while in the study - are not infected with HIV, Hepatitis B or Hepatitis C - have reliable early morning access to the NIH Clinical Center - are able to come to the outpatient clinic frequently, sometimes daily - have not been diagnosed with malaria within the past 10 years Design: - Participants will be screened with medical history and physical exam. They will have heart, blood, and urine tests. - Participants will have blood drawn for tests at most visits. - Participants will keep track of their temperature and symptoms during some sections of the study. - Participants will join one part of the study. Part 1 is one month: - Participants will get the parasites by an injection into a vein on day 1 and receive antimalarial medications. - They will have daily visits on days 7-14 - They will take another antimalarial at visits on days 15-17. - The final visit will be on day 29. Part 2 is seven months: - For the first 3 months, participants will get the parasite injection into a vein for 3 injections in total. Each injection will occur once per month while taking an antimalarial drug. - They will have daily visits on days 7-14 after the first injection, and on days 7-11 after the second and third injection. - They will have a final (fourth) injection around month 6 without any antimalarial medication. - After this fourth injection, participants may have up to 21 daily visits from day 7 after injection until end of study. Part 3 is one month: - Participants will get the parasites by injection into a vein on day 1 without antimalarial medications. - They will have visits almost every day starting day 7 from injection. - They will take an antimalarial medication when they are diagnosed with malaria - They will return for final end of study visit on days 27-29.
Acute kidney injury is a common complication of severe Plasmodium knowlesi malaria, and an important contributor to mortality. The exact pathogenic mechanisms of AKI in knowlesi malaria are not known, however it is hypothesised that haemolysis of red blood cells and subsequent release of cell-free haemoglobin leads to oxidative stress and lipid peroxidation in the renal tubules. A novel mechanism of paracetamol was recently demonstrated, showing that paracetamol acts as a potent inhibitor of hemoprotein-catalyzed lipid peroxidation. In a proof of concept trial, paracetamol at therapeutic levels was shown to significantly decrease oxidative kidney injury and improve renal function by inhibiting the hemoprotein-catalyzed lipid peroxidation in a rat model of rhabdomyolysis-induced renal injury. The investigators hypothesize that this novel inhibitory mechanism of paracetamol may provide renal protection in adults with knowlesi malaria by reducing the hemoprotein-induced lipid peroxidation that occurs in haemolytic conditions. As there is currently no consensus that exists concerning adequate medical treatment for severe malaria complicated by intravascular haemolysis and AKI, the potential application of paracetamol would be of benefit, especially as it is safe and widely available.
SMC LNS Mali is a interventional matched-pair clustered cohort carried out between August and November 2017 in 18 health areas in Kolokani Circle, Koulikoro region, Mali. The objective of this study is to determine whether the association SMC and LNS reduces the number of confirmed malaria cases among children 6-59 months during the monthly SMC distribution sessions.
This is a phase I study that will assess the acquisition of immunity to Pf malaria over the course of 5 sequential Controlled Human Malaria Infections (CHMI) over 2-4 years, in 10 healthy adult participants. 10 subjects will initially be challenged with 5 uninfected mosquitoes (mock), followed by 5 challenges with 5 mosquitoes infected with drug sensitive, P. falciparum parasites (strain NF54) 2, 8, 14-20, 20-32, and 32-36 months later. For the final four infective CMHIs six additional immunologic malaria-naïve subjects will be enrolled and challenged as infectivity controls. If dropouts occur within the original 10 person cohort, and two or more CHMI remain, back-up replacement volunteers will be recruited to undergo successive CHMI with the core group. All volunteers (repeat CHMI subjects and infectivity controls) will be evaluated as part of an inpatient stay (or outpatient daily follow-up) to diagnose Pf malaria infection and treat with Coartem(R) (artemether/lumefantrine) or Malarone(R) (Atovaquone/proguanil). Daily observation will occur from Study Days 9-19 or until three-day directly observed therapy for P. falciparum infection is complete and two negative smears separated by a time interval >12 hours have been documented. A third negative smear >12 hours after the previous two daily smears will be documented to affirm malaria cure. Infectivity Controls enrolled as part of CHMI #5 will be treated based on concomitant us qPCR results. The repeat CHMI subjects will have additional outpatient visits days 1, 3, 5, and 7 after the challenge to obtain blood samples to monitor the development of immunity. The study is expected to last for 48 months and will include approximately 34 healthy male and female volunteers (10 active study volunteers and 18 naïve controls to confirm Pf infectivity during the 2nd -5th CHMI challenges) ages 18 to 50 years, inclusive, from the greater Baltimore community. The primary objective of this study is to determine whether protective immunity against parasite infection develops following repeat CHMI.
This study aims to compare the efficacy of monthly IPTp-DP with monthly IPTp-SP to determine if IPTp-DP is associated with a reduction in malaria infection at delivery among HIV-negative women in an area with high levels of SP resistance in Malawi.
Single site, double-blinded, randomized, placebo-controlled clinical trial of PfSPZ-CVac safety, tolerability, immunogenicity and efficacy against naturally occurring malaria in malaria-exposed Malian adults. The overall goal of the study is to evaluate if a regimen of PfSPZ-CVac (PfSPZ Challenge under chemoprophylaxis) is safe, well-tolerated, and provides sterile protection against naturally-occurring malaria in malaria-experienced adults. The study population includes 62 healthy, malaria-experienced adults aged 18-45 years, inclusive, residing in Bougoula Hameau and surrounding villages, Mali. The primary objective of this study is to assess the safety and tolerability of PfSPZ Challenge compared to placebo among malaria-experienced adults taking chloroquine prophylaxis (PfSPZ-CVac)
For assessing body retinol pools in preschool children, it is recommended that a blood sample is taken 14-21 days after isotope dosing. During this period, dietary intake of vitamin A should be controlled. Shortening of this period as has been validated for adults would reduce the burden for the children as well as improve research efficiency. The aim is to validate a 4-day protocol for assessing body retinol pools in preschool children by modelling data derived by retinol isotope dilution (RID) method. Venous blood samples will be collected of 60 children 4 days after dosing of 0.4 mg 13C-labeled retinyl acetate. A second venous blood sample will be collected at 6, 8, 12 hrs; and 1, 2, 4, 7, 11, 16, 22 and 28 days after dosing in subgroups of 6 children, randomly divided over the 10 additional time points. Body retinol pools will be modelled, and the time point at which a parsimonious model applies (presumably at day 4) will be assessed.
Targeted malaria elimination (TME), which comprises appropriate case management by village health workers, vector control and mass drug administration, is currently being implemented through pilot projects in selected villages in the Greater Mekong Subregion (GMS) and the scale-up of the intervention to the regional level are underway. Based on mathematical modelling, extending the post-TME parasitaemia-free period in the majority of villagers for as short as 200 days will substantially increase the chances of achieving the interruption of malaria transmission. Immunogenicity of RTS,S is greater in older children, and the short term malaria protective effect is stronger than the overall effect assessed over 1-2 years. Addition of mass RTS,S/AS01E vaccination to the TME arsenal could provide this much needed additional protection. Currently there are no safety and immunogenicity data for the use of RTS,S/AS01 in Asian populations. This trial will generate the required data for the use of this vaccine in Asian populations. For integration with the current TME activities, which provide mass drug administrations at months M0, M1, and M2, it would be most efficient and practical to provide the vaccine at the same intervals. To address a two round intervention (M0, M2) where a three round intervention is not feasible, one study arm will look at the immune response generated by only two doses of vaccine and antimalarial medications. Recent evidence suggests that a vaccination schedule which includes a fractional dose of RTS,S/AS01 (1/5th of the standard dose) could be similarly or more protective than a schedule with three standard full doses, while requiring less vaccine and resources. The trial therefore includes study arms which will assess the safety and immunogenicity of fractional dose schedules. Each participant will be randomized into one of the following study arms in a ratio of 20:20:30:30:30:30:30, as follows: - RTS,S/AS01B Fractional dose group (Group 1) - Double RTS,S /AS01E Fractional dose group (Group 2) - RTS,S/AS01E Standard dose group (Group 3) - RTS,S/AS01E + DHA-PIP+PQ Standard dose group (Group 4) - RTS,S/AS01E Fractional dose group (Group 5) - RTS,S/AS01E + DHA-PIP+PQ Fractional dose group (Group 6) - RTS,S/AS01E + DHA-PIP+PQ Fractional two-dose group (Group 7)