View clinical trials related to Malaria.
Filter by:This is a randomised, open label trial, comparing standard dose of dihydroartemisinin-piperaquine (DP) with standard fixed artesunate-mefloquine regimen (MAS3) and with a longer regimen of artemether-lumefantrine (ALN+) in the treatment of uncomplicated malaria in pregnant women. The sample size is 335 women in each arm which would be 1005 women in total. Pregnant patients in 2nd and 3rd trimester with acute uncomplicated malaria who meet eligibility criteria will be asked to participate in the study. The primary objective is to determine if the efficacy of DP and MAS3 are superior to ALN+ in the treatment of uncomplicated malaria in pregnancy. The study will also incorporate a dense pharmacokinetic study of mefloquine and artesunate (15 women in the MAS3 arm) and a population pharmacokinetic study for mefloquine, piperaquine and lumefantrine.
Malaria is a major contributor of disease burden in Sub-Saharan Africa: 90% of global cases occur there, and pregnant women and children under 5 years are the most vulnerable. Malaria in pregnancy increases risks of abortion, stillbirth, prematurity, intrauterine growth retardation and maternal anemia, and is associated with higher risk of low birth weight and perinatal, neonatal and infant mortality. For prevention and control of malaria in pregnancy, the WHO recommends Intermittent Preventive Treatment (IPT) with antimalarial drugs, insecticide treated nets (ITNs) and effective treatment of malaria and anemia. HIV in pregnancy increases the risks of malaria, and it seems that the efficacy of IPT with the drug sulphadoxine-pyrimethamine (SP) is decreased in HIV+ pregnant women. Malaria prevention in pregnancy in Zambia relies on ITNs and IPT with SP. Daily prophylaxis with cotrimoxazole (CTX) effectively reduces mortality and morbidity in HIV+ individuals, and antibiotic therapy during pregnancy might help to decrease adverse pregnancy outcomes. CTX prophylaxis improves birth outcomes in HIV+ women with CD4<200/µl: a study concluded that antenatal provision of CTX was beneficial for HIV+ pregnant women with low CD4 but not in women with ≥200/µl (however, this study was carried out in an area with very low risk of malaria , and CTX may have a different effect depending on endemic conditions). The WHO recommends daily CTX in addition to ARVs, to prevent opportunistic infections in all HIV+ patients. Concurrent administration of SP and CTX may increase the incidence of severe adverse reactions in HIV+ patients, so WHO has promoted CTX prophylaxis as an alternative to SP for the IPT in immuno-compromised pregnant women. Unfortunately, there is insufficient information on the effectiveness of daily CTX for preventing malaria infection in pregnancy: so, SP is still the only antimalarial recommended by WHO for this purpose. With the increase in SP resistance and with the newer antimalarials still being studied for safety and efficacy in pregnancy, CTX could be an alternative for SP in reducing malaria and malaria-related morbidity and mortality in pregnancy. This study will try to to see if in HIV- and HIV+ pregnant women, CTX is not inferior to SP in reducing placental parasitaemia. Such information is needed to issue updated, effective guidelines on malaria prevention in pregnancy
In this stdy, patients aged above 6 months with symptomatic malaria presenting to health centers will be enrolled for treatment with artemether-lumefantrine for P. falciparum infection, and either artemether-lumefantrine or chloroquine for P. vivax infection. Clinical, parasitologic, and hematologic parameters will be monitored for P. falciparum and P. vivax infection over a 42-day follow-up period, which will be used to evaluate drug efficacy. Results from this research study will be used to assist Ethiopia in assessing their current national malaria drug policies.
Most malaria deaths occur within 48 hours of onset of symptoms, and in rural areas with poor access to health facilities, home management of malaria (HMM) can improve the timeliness of treatment and reduce malaria mortality by up to 50%. In order to maximize both coverage and impact, ACTs should be deployed in HMM programmes, as well as in formal health facilities. Up to 80% of malaria cases are treated outside the formal health sector and shops are frequently visited as the first (and in some cases only) source of treatment. Strategies to deploy ACTs in Africa thus also need to examine the role of shops in home management and to ensure that drugs sold are appropriate. The current practice of presumptive treatment of any febrile illness as malaria (both at health facilities and in the context of HMM) based solely on clinical symptoms without routine laboratory confirmation, results in significant over-use of antimalarial drugs. With ACT being a more costly regimen, it is important to be more restrictive in its administration and rapid diagnostic tests (RDTs) provide a simple means of confirming malaria diagnosis in remote locations lacking electricity and qualified health staff. This study therefore proposes to evaluate the feasibility, acceptability, and cost-effectiveness of using RDTs to improve malaria diagnosis and treatment by community-based drug distributors.The accuracy of RDTs, and the acceptability of this approach, will be evaluated in both low and high transmission areas.
The purpose of this study is to compare the efficacy of Artemether Sublingual Spray (ArTiMistâ„¢) with intravenous quinine in children with severe or complicated falciparum malaria, or children with uncomplicated malaria with gastrointestinal complications.
The purpose of this study is to determine whether insecticide treated wall liners, in combination with insecticide treated nets, reduce the incidence of malaria infections compared to insecticide treated nets alone.
To evaluate the causes of non-malarial febrile illness in children living in an area of perennial malaria transmission and to determine if these children who test negative for malaria by rapid diagnostic test receive any benefit from antimalarial therapy.
Phase I/IIa double-blind randomized (adjuvant)-controlled trial. 16 volunteers are randomized to receive two doses of either 30 µg of PfCS102 formulated in Montanide ISA 720 (verum) or ISA 720 alone (control), 60 days apart. Two weeks after the 2nd immunization, 14 volunteers are challenged with bites of 5 infected mosquitoes using the NF54 strain of P. falciparum. The main outcome will be the length of time between artificial challenge and development of blood stage parasitaemia detected by microscopy performed twice a day.
The purpose of this study is to perform laboratory based studies to determine if the growth and development of the malaria parasite is effected by iron status of its host (the person infected with the malaria parasite). Iron deficiency affects over 500 million people including many pregnant women and children from areas of the world that are plagued by malaria. Some population based studies have suggested that iron deficiency protects people from getting malaria and this has raised questions about the wisdom of public health policies that provide universal iron supplementation in countries where malaria is common. We will use red blood cells and sera from patients with iron deficiency anemia, hereditary hemochromatosis and normal individuals who are taking iron supplements to look at this question in a very systematic way. This study should provide information for or against a possible mechanism by which iron deficiency may affect the malaria parasite. The results will contribute to efforts to develop evidence-based public health policies on iron supplementation policies in malaria-endemic areas. There are three different types of individuals involved in this study (1) people with iron deficiency anemia who will be taking iron supplementation (2) people without iron deficiency anemia who will be taking iron supplementation and (3) people with a condition called hereditary hemochromatosis who have an excess of iron in their bodies.
Malaria is caused by a germ that people get from the bites of some mosquitoes. It kills over 2 million people each year. Many of the drugs used to treat malaria do not work as well as they used to and researchers are exploring other vaccines to prevent malaria. The purpose of this study is to learn if the vaccine, called EBA-175 RII-NG, is safe and if it strengthens the body's defenses against malaria. Participants will include 60 healthy adults, ages 18-40, recruited from Accra, Ghana. Several dosages of the vaccine will be tested for safety. The lowest dosages of the vaccine will be tested before the next higher dose is tested. There will be two groups for each dose, one group will receive the vaccine and the other group will receive a placebo (salt water solution). Participants may be involved in study related procedures for up to 398 days.