View clinical trials related to Malaria, Falciparum.
Filter by:The principal aim of this project is to investigate reports of developing artemisinin resistance in Cambodia using an integrated in vivo - in vitro approach to examine recent alarming reports of treatment failures with advanced combination therapies along the Thai-Cambodian border, which could have major impact on the malaria situation in the affected areas as well as the rest of the malaria-endemic world.
The purpose of this study is to find new ways to control malaria by looking at mosquitoes infected with the disease. Knowledge of the genetics that affect the spread of malaria by mosquitoes will help in developing control strategies. A small amount of blood from infected humans will be used to infect the mosquitoes. No contact will occur between the human subject and the mosquito. Study participants will be divided into 2 groups of 20, for a total of 40 children, ages 5-10, in Burkina Faso, West Africa. Each subject will be screened by finger-prick once per month, from June through October, until they reach a maximum age of 10. Two positive subjects of the 40 screened will be asked to donate about 1 teaspoon of blood, which will be used to feed and infect the mosquitoes. Study participants will be involved in study related procedures for a maximum of 5 years.
In 2005-2006, a clinical trial was carried out to test safety, tolerability and efficacy of the combination chlorproguanil-dapsone+artesunate (CD+A): 800 children aged 12-59 months with uncomplicated P. falciparum malaria randomly allocated to AQ+SP or CD+A were followed up until day 28 after treatment. Adverse events, clinical and parasitological outcomes were recorded.
Malaria is a disease that affects many people in Africa. Malaria is caused by germs spread by mosquito bites. The purpose of this study is to compare the number of children who get malaria after receiving an experimental malaria vaccine (FMP2.1/AS02A) to the number of children who get malaria after receiving a vaccine for rabies (an approved vaccine that does not prevent malaria). The children will be assigned to one of the vaccine groups by chance. Participants and doctors will not know which vaccine was given. Study participants will include 400 children, ages 1-6 years, living in Bandiagara, Mali. Children will receive 3 vaccine doses, by injection, to their upper arm. Study procedures will include physical exams and several blood samples. Participants will be involved in the study for 26 months.
The purpose of this study is to compare four regimens using US FDA GMP intravenous artesunate for the treatment of uncomplicated Plasmodium falciparum malaria to identify the most effective treatment regimen as determined by rapidity of parasite clearance by microscopy.
The objective of the study is to induce a protective immune response against malaria in healthy human volunteers. The different parts of the immune response will then be studied.
The newly introduced antimalarial drug artemether-lumefantrine is currently recommended as second line antimalarial in Sudan. Recurrent infection after treatment with this drug has been associated with selection of certain genes in the malaria parasite. However there is no information on this association in Sudan.This study is going to look into the genetics of resistance to artemether-lumefantrine.
This study will evaluate the efficacy of treatment with artemether-lumefantrine as compared to chloroquine in the dose of 50 mg/kg for treatment of malaria in children in Guinea-Bissau. The genetic basis of the parasites for developing resistance will be examined. Children coming to one of the Health Centres with symptoms of malaria and a positive malaria test will be included. The children will be followed weekly until day 70. In case of reappearance of parasites the child will be re-treated with the opposite study drug.
We will be studying the clinical efficacy of amodiaquine-artesunate currently being studied in an intermittent preventive therapy in infants (IPTi)trial in the same area in order to correlate preventive efficacy seen in IPTi with efficacy for treatment of symptomatic malaria for each regimen.
The primary objective of this phase III study is to compare the efficacy and safety of the fixed combination of pyronaridine artesunate (Pyramax®, PA) with that of Coartem® (artemether lumefantrine, AL) in children and adults with uncomplicated P falciparum malaria in Africa and South East Asia.