View clinical trials related to Malaria.
Filter by:A healthy volunteer study to characterise the exposure of the two study medications, following administration of OZ439 + TPGS granules with piperaquine phosphate granules (intended for children) and with piperaquine phosphate tablets (intended for adults). Ideally, to confirm the exposure demonstrated in an earlier bioavailability study.
Background: - Malaria is caused by small parasites carried by some mosquitoes. People can get malaria if an infected mosquito bites them. Malaria destroys red blood cells. Most malaria is mild, but some children develop severe malaria, which kills about 660,000 people annually. About 9 in 10 who die of malaria are Sub-Saharan African children, most under 5 years old. Scientists can save many lives if they find out how to prevent or relieve severe malaria. Objective: - To know if a common medicine called activated charcoal can reduce severe malaria symptoms. Eligibility: - Children 2 to 11 years old with mild malaria who live in Kenieroba, Mali. Design: - For the first 2 days and nights, participants will stay in the hospital. - They will have their medical history taken, and a physical exam. - Blood will be drawn from a thin tube inserted in their hand or forearm. This will be done 3 times overall. A drop of blood will be taken from a finger prick 12 times overall. - An antimalarial drug will be injected into the tube in the arm 4 times. Each time the drug is given, participants will drink a small cup of either water or activated charcoal. - For the following 3 days, participants will take an antimalarial pill. - On day 7, participants will visit the hospital. A drop of blood from a finger prick will be tested for malaria parasites.
This study is designed to characterise P. falciparum transmission intensity in subjects aged ≥6 months and <10 years by measurement of P. falciparum parasite prevalence, and to estimate the use of malaria control interventions at some centres selected for the EPI-MAL-002 and EPI-MAL-003 studies in sub-Saharan Western Africa.
P27A study is designed as a randomized phase Ia/Ib trial to evaluate the safety and immunogenicity of the blood stage candidate vaccine P27A against P. falciparum - P27A antigen and associated adjuvant (Alhydrogel or GLA-SE) - in malaria non exposed European volunteers(Switzerland; phase Ia) and malaria exposed African volunteers (Tanzania; phase Ib).
Malaria is a common disease in Africa and a major health problem. Pregnant women are also at risk of malaria. Malaria in pregnancy is life threatening to both the mother and the baby she is carrying. It can result in the destruction of the mother's blood and in babies with a lower birth weight than normal, making them less healthy in their first years of life. These risks are even higher in women having their first pregnancy. When a woman is pregnant she should go to the Antenatal clinic (ANC) for care. Usually the ANC health staff gives the woman intermittent preventable treatment (IPTp-SP) against malaria. This drug helps protect the woman against getting malaria. Each pregnant woman should receive at least 2 doses of this drug during their pregnancy; thus, they should go the ANC at least 2 times during their pregnancy. However, many women still do not go often to the ANC for health care during their pregnancy. This study would like to see whether community health workers (CHW) can work with pregnant women to encourage them to attend ANC more often. Also, the CHW will test a pregnant woman every month for malaria with a rapid test. If a woman has malaria, the CHW will treat her in her home instead of the woman having to go a health clinic for treatment. The woman will be treated with a different drug than the drug that is given at the ANC visits. Our hypothesis is that this will improve the care and management of malaria during pregnancy and this will improve the health of women and their newborns. To see whether this strategy improved the health of women and their newborns, we will take a small piece of the placenta at delivery to test for malaria and we will weigh the baby. We will test this strategy in multiple communities. We will compare this to pregnant women in communities where this strategy was not followed, thus where pregnant women received standard care. Participants will be pregnant women. There are no direct benefits for participating in the study, except the outcome of our research question that is possible health benefits in the intervention group. The drugs involved are tested safe in pregnant women from second trimester on.
Artemisinin combination therapy (ACT) with artemether lumefantrine (AL) is currently the first line treatment policy in Kenya. AL is an efficacious drug that also has the capacity to reduce malaria transmission to mosquitoes. Nevertheless, there is concern about the development of parasite resistance against AL. Clinical trials in Asia showed that mefloquine-artesunate (MQ-AS) may be more efficacious than AL and may have a more pronounced beneficial effect on post-treatment malaria transmission. MQ-AS is registered and used in Kenya but there have been no reported direct comparisons of AL and MQ-AS with clinical and transmission endpoints (i.e. adequately clearing parasites and preventing transmission to mosquitoes). Screening for molecular markers that are related to parasite susceptibility to ACT drugs and to post-ACT treatment malaria transmission can assist strategies to prevent the development and spread of ACT resistance. In the current study, we compare AL and MQ-AS for the treatment of uncomplicated malaria. Our endpoints are i) clinical efficacy, ii) post-treatment gametocytaemia by molecular techniques. In the current study, the investigators compare AL and MQ-AS for the treatment of uncomplicated malaria. The investigators endpoints are clinical efficacy post-treatment gametocytaemia by molecular techniques
Optimal fluid therapy in severe falciparum malaria has not been well defined, especially in resource poor settings where access to mechanical ventilation is limited. Recent studies suggest that liberal fluid resuscitation is harmful for severe malaria patients despite they often being hypovolemic on admission. In order to elucidate the minimum fluid therapy required to prevent complications in severe malaria, we will conduct a prospective observational study in adults with severe malaria, and also in adults with severe sepsis as a comparison group. The objective of this study is to describe the association between hemodynamic variations in conventional fluid management and the probability of developing acute kidney injury (AKI) or pulmonary edema in adults with severe malaria and severe sepsis. Hemodynamic measurements will be obtained by using transpulmonary thermodilution and arterial pulse contour analysis.
Primaquine (PQ) is currently the only available drug that can clear mature transmission stages of P. falciparum parasites. PQ was previously shown to clear gametocytes that persist after artemisinin-combination therapy. However, there are safety concerns about the use of PQ at the currently recommended dose of 0.75mg/kg in individuals who are glucose-6-phosphate dehydrogenase (G6PD) deficient. PQ causes transient but significant haemolysis in G6PD deficient individuals; this side-effect is dose dependent. There are indications that a lower dosing of PQ may effectively reduce gametocyte carriage but the lowest efficacious dose for gametocyte clearance is currently unknown. Recently, the World Health Organization changed their recommendation to a low dose of primaquine, 0.25mg/kg. However, there is no direct evidence on the extent to which (low dose) PQ prevents malaria transmission to mosquitoes and what the lowest efficacious dose is. In the current study we aim to identify the lowest efficacious dose of PQ in individuals with normal G6PD function. Children with asymptomatic malaria and normal G6PD enzyme function will be randomized to treatment with artemether-lumefantrine alone or in combination with low doses of PQ. All enrolled individuals will receive a full three-day course of AL, and will be randomized to receive a dose of primaquine or placebo with their fifth dose of AL. Efficacy will be determined based on gametocyte carriage during follow-up, measured by molecular methods. For a subset of participants with patent gametocytes, primaquine effect on infectivity to mosquitoes will be assessed by membrane feeding assays
Phase IV, single center, 2 arms randomized controlled, open label study. Study will be conducted over a period of 42 days to determine the safety, tolerability, pharmacokinetics and efficacy of ARCO.
The purpose of this study is to evaluate the clinical performance of the one-step Fyodor Urine Malaria Test (UMT), to determine its accuracy (sensitivity and specificity) for the diagnosis of Plasmodium falciparum malaria in febrile patients. A total of 1500 properly consented children and adults presenting with fever (axillary temperature ≥37.5°C) or history of fever in the last 48 hours (Group 1), 250 apparently "healthy" individuals (Control, Group 2), and 50 patients with Schistosoma hematobium and Rheumatoid arthritis (Group 3), will be recruited. Matched urine and fingerprick (capillary) blood samples will be collected and tested using the UMT and, Binax NOW® malaria rapid diagnostic test (blood test) and thick smear microscopy, respectively. The overall agreement of the UMT results to the Binax NOW analysis and thick smear microscopy will be used to establish UMT sensitivity and specificity.