Active clinical trials for "Malaria"

This is an open label phase I study, to assess the safety of a novel malaria vaccine, AdCh63 AMA1, simian adenovirus encoding Plasmodium falciparum blood stage antigen, Apical Membrane Antigen -1. All volunteers recruited will be healthy adults. They will be primed with various doses of AdCh63 AMA1 administered intramuscularly. Some of the volunteers will receive a booster vaccination with MVA AMA1 administered via intramuscular route. Safety data will be collected for each of the eight regimens. Secondary aims of this study will be to assess the immune responses generated by each of these regimes.

This study aims to test the safety and efficacy of six new malaria vaccines - AdCh63 AMA1, MVA AMA1, AdCh63 MSP1, MVA MSP1, AdCh63 ME-TRAP & MVA ME-TRAP. These vaccines consist of inactivated viruses which have been modified - so they cannot reproduce (replicate) in humans, and also to include genetic material (genes) for malaria proteins which are expressed by the malaria parasite during both liver and blood stage infection. The vaccines are designed to stimulate an immune response to these malaria proteins (immunogenicity describes the nature and magnitude of this immune response) and thus provide protection against malaria infection. The protective efficacy of vaccines will be evaluated by challenging a small number of volunteers who have received the vaccines with malaria infection from the bites of infected mosquitos(sporozoite challenge).

The purpose of this study is to determine to what extent supplementation with zinc and other micronutrients are efficacious in preventing malaria in young Tanzanian children.

1) To compare in a setting where microscopy for malaria is available whether introducing rapid diagnostic tests (RDTs) improves targetting of antimalarial drugs and antibiotics (RDT v microscopy). 2) To compare whether, in a setting where microscopy for malaria is not available, introducing rapid diagnostic tests (RDTs) improves targetting of antimalarial drugs and antibiotics (RDT v clinical diagnosis).

This study will evaluate the safety and effectiveness of a vaccine called AMA1-C1/ISA. Malaria is a serious infection of red blood cells caused by a parasite. There are 300 to 500 million malaria cases worldwide each year. About 2 to 3 million deaths annually are from malaria alone or along with other diseases. Researchers hope to find a vaccine to fight malaria. Patients ages 18 to 45 who are in good health, are not pregnant or breast feeding, have no history of malaria, and have not lived for more than 1 month in an area where malaria is prevalent may be eligible for this study. There will be 28 participants, each assigned to one of three dose groups: 12 get 5 microg, 12 get 20 microg, and 4 get 80 microg of AMA 1-C1 formulated in ISA 720. The vaccine might block the parasite from entering red blood cells and causing disease. This study is the first time the vaccine will be given to human beings for testing. Patients will have a medical history, physical exam, laboratory tests, and pregnancy tests. The study will last 48 weeks. One or two vaccinations are given by injection, at least 12 weeks apart. After each vaccination, patients will be asked to stay in the clinic for at least 30 minutes for observation. They will return to the clinic on Days 1, 3, 7, 14, 28, and 56 after each vaccination. There will be a check of vital signs, brief physical exam, history of symptoms and medications taken since the last visit, and blood tests to check for vaccine safety and effectiveness. Photographs of the injection site on the arm may be taken. Patients will receive a thermometer, diary card, and plastic measuring device. Each day they will record their temperatures and any symptoms, and measure the size of any reactions at the vaccination site. They will be asked to do this for 27 days after vaccinations. After injections, there may be pain, swelling, and redness at the vaccination site, and limitation of arm movement. General side effects from the vaccine may be fever, chills, headache, fatigue, and muscle and joint pain. Patients will be asked if they agree to have researchers keep any unused serum samples, for use only in research into malaria and other diseases. Genetic testing would not be done on those samples. Stored samples will be labeled with a code, and information is kept private.

This is a phase Ib double-blind randomized placebo controlled age-deescalating trial to assess sagety and immunogenicity of two virosome formulated anti-malaria vaccine components (PEV 301 and PEV 302) administered in combination to healthy semi-immune Tanzanian adult and children.

This phase IIb trial is being done to find out if the RTS,S/AS01 vaccine helps to prevent children from falling ill with malaria and to evaluate vaccine safety. The Protocol Posting has been updated in order to comply with the FDA Amendment Act, Sep 2007.

Background: - Malaria is a disease that is spread by mosquitoes. Researchers are looking for a vaccine that can prevent mosquitoes from transmitting malaria to people. They want to test a vaccine called Pfs25-EPA/Alhydrogel that may help stop malaria parasites from developing in mosquitoes. When a mosquito bites a vaccinated person, the vaccine should prevent parasites from developing in the mosquito. As a result, the mosquito will not spread malaria to the next person it bites. However, the vaccine will not directly prevent people vaccinated from getting sick with malaria. Researchers want to test this vaccine in people who live in rural Mali. To do so, the study will compare the symptoms and the blood tests of the participants who receive either the study vaccine or a regular hepatitis B/meningococcal vaccine. Objectives: - To see if Pfs25-EPA/Alhydrogel is a safe and effective malaria vaccine. Eligibility: - Healthy volunteers between 18 and 45 years of age who live in Bancoumana, Mali. Design: Participants will be screened with a medical history, physical exam, and blood tests. Participants will be separated into two groups. One group will have Pfs25-EPA/Alhydrogel to test the study vaccine. The other group will have the regular Hepatitis B vaccine series, meningococcal vaccine. In the study vaccine group, participants will have either a lower dose or a higher dose. For the lower dose, they will have two vaccine shots over 1 year. For the higher dose, they will have four vaccine shots over about 14 months. In the other vaccine group, participants will have the Hepatitis B vaccine series, meningococcal vaccine according to the standard dose schedule. All participants will provide regular blood samples for testing during the study. Participants who develop malaria during the study will participate in evaluation of transmission and parasite development of malaria parasite from the person to mosquito via transmission assays. They will allow mosquitoes (that have no diseases) to bite them in a controlled clinic setting. This will let researchers see if the vaccine can stop the mosquitoes from carrying malaria to other people.

Given the resistance emergence of malaria in pregnant women receiving intermittent preventive treatment with sulfadoxine-pyrimethamine (IPT-SP) and the burden of this infection among pregnant women infected by HIV it is urgent to seek a more effective alternative treatment to optimize the prevention of malaria. Cotrimoxazole (CTM), actually administered daily as a prophylactic mean to opportunistic infections for HIV infected patients, showed encouraging results in preventing malaria in pregnant women. However, these results must be confirmed by randomized trials, particularly in pregnant women. The main objective of this clinical trial is to compare the efficacy of cotrimoxazole (CTM), administered once daily with IPT-SP (3 curative doses spaced one month) on placental parasitaemia in pregnant women infected with HIV and cluster of differentiation 4 (CD4) > 350 cells/mm3. The main hypothesis is based on the premise that cotrimoxazole is more effective than IPT-SP for placental parasitaemia. This might be due to the higher plasma concentration of cotrimoxazole attained with daily doses. If this hypothesis is proven, cotrimoxazole could be recommended as prophylaxis for HIV-positive pregnant women, whatever their CD4+ cell count. In this study, the investigators will also test the hypothesis that the strains of Plasmodium falciparum isolated from HIV-positive pregnant women express more dhfr and dhps resistance markers.

This study is a Phase 1, dose escalation, first-in-human study designed primarily to evaluate the safety of the purified plant-derived Pfs25 VLP combined with Alhydrogel adjuvant