View clinical trials related to Malaria, Falciparum.
Filter by: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.
A community-based, open-label, cluster-randomised longitudinal study in which children are randomized according to village health worker catchment areas comparing the safety and effectiveness of repeated treatments with artemether-lumefantrine (AL) over a 3-year period in children 4-48 months to that of repeated treatment with dihydroartemisinin-piperaquine (DHA-PPQ).
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.
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.
The purpose of this study was to provide stronger evidence for extended-dose chloroquine treatment of falciparum-positive Afghan refugees in Northwest Frontier Province (NWFP), Pakistan or justification for discontinuation of the policy.
Several countries in Africa have changed their first-line treatment for uncomplicated malaria to an ACT. Burkina Faso has changed its policy to Artemether-Lumefantrine (AL) and Artesunate-Amodiaquine (AQ+AS). However, such choice has been done without knowing the local effectiveness of these drugs when they are given to patients in real life conditions, without direct observation of the drug administration. Thus, this study aims at investigating the effectiveness of AQ+AS and AL, when given to children with uncomplicated malaria in Burkina Faso.
Primary objective: To assess the Day 28 efficacy defined as the percentage of patients with no parasitic recrudescence, of 3 treatment groups - 3 dose levels of ferroquine associated with artesunate - for a 3-day treatment. Secondary objectives: - To assess the efficacy of ferroquine at one dose level alone for a 3-day treatment. - To assess the clinical safety of 4 treatment groups - 3 dose levels of ferroquine associated with artesunate and one dose level of ferroquine alone. - To assess pharmacokinetics parameters of ferroquine and its metabolites along sparse sampling schedules.
Malaria is a parasite, infection with which kills over 2 million people each year. It is a major problem for those who live in endemic areas and for travellers. There is a great need for a safe effective malaria vaccine. The purpose of this study is to examine a new vaccine designed to provide immunity during the blood stage of the malaria parasite's lifecycle. The vaccine consists of AMA1-C1 which is a mixture of two recombinant synthetic AMA1 proteins from two Plasmodium falciparum strains, Alhydrogel® which is an aluminium-based adjuvant and CPG 7909 - an oligodeoxynucleotide, which enhances immune response. This study will enable the investigators to assess: 1. The ability of of a growth inhibition assay to predict the effectiveness of a malaria vaccine. 2. The safety of the vaccine in healthy volunteers 3. The response of the human immune system to the vaccine
Background: - Malaria, a disease transmitted by mosquitoes, affects millions of people with the highest frequency, morbidity, and mortality in infants and young children. Plasmodium falciparum and Plasmodium vivax, the most common and severe forms of malaria, have host- and stage-specific proteins that can induce immunity to the disease. - Vaccines against stages that infect mosquitoes will prevent the spread of malaria. Researchers have developed a vaccine composed of a single protein, Pfs25, to induce antibodies in the human host that will be ingested by the mosquito and prevent the malaria parasite from reproducing and stop transmission of the disease. Because Pfs25 is present only in the mosquito, humans do not develop antibodies to this antigen even in endemic areas. Repeated injections of this vaccine may be necessary. Objectives: - To establish the safety and optimal dosage of a malaria vaccine developed with the Pfs25 protein. Eligibility: - Healthy adults between 18 and 49 years of age who have never had malaria or received a malaria vaccine. Design: - Two doses of Pfs25 conjugate (10 micrograms and 25 micrograms) will be evaluated in this study. Participants will receive only one of these doses in order to provide the best scientific data for evaluation. - To determine eligibility, participants will provide a medical history and have a physical examination, and will provide blood and urine samples to test for HIV/AIDS, hepatitis, and other conditions that would prevent them from participating. - Eligible participants will receive one injection of the vaccine. The injection will be followed 30 minutes later with a temperature reading and an inspection of the vaccine site. - Upon leaving the clinic, participants will receive diary forms, a digital thermometer, a ruler, and instructions about how to take their temperature and to measure redness and swelling (if any) at the injection site. About 6 hours later, and daily for 3 days, participants will take their temperature at home and examine the injection site. Participants will be examined at the clinic at 48 to 72 hours and on day 7 after an injection. A blood sample will be taken 1 week after immunization. - Participants will receive a second and third injection of the same vaccine at 6-week intervals, and will follow the same recording procedure given above. Further blood samples will be taken at regular intervals for up to 12 months after the vaccination, as directed by the study researchers.
This study is an evaluation of the benefit of adding artesunate to existing first and second line antimalarial therapies in Pakistan. A placebo controlled trial was carried out to assess two potential benefits of Artesunate Combination Therapy (ACT): efficacy and potential for transmission reduction.