View clinical trials related to Malaria, Falciparum.
Filter by:Malaria is a disease that affects many people in Africa and in Mali. It is caused by germs that are spread by mosquito bites. This study will look at the safety, effectiveness, and best dose of an experimental malaria vaccine in people who are regularly exposed to malaria. Study participants will be 60 adults, 18-55 years old, who live in Bandiagara, Mali. Volunteers will get either 3 full doses of the experimental malaria vaccine, 3 half doses of the malaria vaccine, or a rabies vaccine that has been approved in Mali. (Rabies is an infection of the brain that usually causes death, and can be caught from being bitten by infected dogs or bats.) The 3 vaccinations will be given by injection into the upper arm 30 days apart. Volunteers will be enrolled in the study for approximately 12 months after the first vaccination. Volunteers will have 14 blood samples collected during the study for testing to make sure that the vaccine is not harmful and to measure the effect of the vaccine.
Malaria is an illness caused by a parasite (an animal or plant that lives in or on a host) that enters the human body through the bite of an infected mosquito. The purpose of this study is to find out about the safety of an experimental malaria vaccine and whether the vaccine causes humans to produce antibodies (proteins made by the body's immune system to help control or prevent infection). Four strengths of the vaccine will be tested. The lowest strength of the vaccine will be tested before the next higher strength is tested. Each dosage (shot) of vaccine will be given to 18 people in 4 dosage groups on Day 0, at 1 month and at 6 months. Two people in each dosage group will receive injections of a placebo (contains no medication). Participants will include 80 healthy adults between 18 and 40 years of age. Multiple blood draws will occur over the duration of the study. Participants will be involved in study related procedures for approximately 13 months.
The purpose of this study is to test an experimental malaria vaccine in about 75 healthy adults, 18-45 years of age. The study will also test an experimental adjuvant which is a material added to a vaccine to help the body make more defense cells. The body's immune response (response to foreign substances) and the safety of the vaccine will be tested. All subjects will receive 3 doses of vaccine on days 0, 28, and 56 and doses may increase during the study. Participation in the study is expected to be up to 323 days and includes 16 visits. Study procedures include medical history, physical exams, urine and blood testing.
Chlorproguanil-dapsone has been approved for the treatment of uncomplicated Plasmodium falciparum malaria in a number of countries across sub-Sahara Africa, and by the UK's Medicines and Healthcare products Regulatory Agency. CDA is a combination of chlorproguanil, dapsone and artesunate, being developed in a public-private partnership with the Medicines for Malaria Venture (MMV), World Health Organisation (WHO-TDR) and academic partners from the London School of Hygiene and Tropical Medicine, University of Liverpool and the Liverpool School of Tropical Medicine as a treatment for acute uncomplicated P. falciparum malaria. The combination of chlorproguanil-dapsone-artesunate (CDA) is being developed to supersede chlorproguanil-dapsone for the same indication, but the addition of an artemisinin derivative, artesunate, should provide additional population benefits over chlorproguanil-dapsone alone. The artemisinins have been demonstrated to rapidly reduce parasite load and have activity against the sexual stages of the P.falciparum lifecycle. The addition of a second agent to the chlorproguanil-dapsone combination should also protect against the selection of resistant strains of P.falciparum. Artemether-lumefantrine is the only available fixed-dose Artemisinin-based Combination Therapy actually available and is considered as the gold standard for the treatment of P. falciparum malaria. This study will therefore aim to demonstrate the non-inferiority of the combination of CDA to artemether-lumefantrine in terms of efficacy at 28-days. The key secondary objectives will compare the Parasite Clearance Times (PCT) and the Fever Clearance Times (FCT) between CDA and artemether-lumefantrine.
This study will determine the highest dose of an experimental vaccine called AMA1-C1 that can safely be given to adults exposed to malaria. Malaria affects about 300 million to 500 million people worldwide each year, causing from 2 million to 3 million deaths, mostly among children under 5 years of age in sub-Saharan Africa. It is the leading cause of death and illness among the general population of Mali in West Africa. Increasing drug resistance to the malaria parasite, as well as widespread resistance of mosquitoes (the insects that transmit the parasite) to pesticides are reducing the ability to control malaria through these strategies. A vaccine that could reduce illness and death from malaria would be a valuable new resource in the fight against this disease. AMA1-C1 is an experimental vaccine developed by the NIAID. Early tests of AMA1-C1 in 30 healthy people in the United States found no serious harmful side effects of the vaccine. This study will look at the effect of AMA1-C1 in people in Mali who have been exposed to malaria. Residents of Don gu bougou, Mali, who are between 18 and 45 years of age and are in general good health may be eligible for this study. Candidates are screened with a medical history and physical examination, blood and urine tests, and urine pregnancy test for women. Participants are randomly assigned to receive three injections (shots) of either the experimental malaria vaccine or a hepatitis B vaccine that is approved and used in Mali. All shots are given in an upper arm muscle. After the first shot, the second is given 1 month later, and the third is given 12 months after the first. Subjects receiving AMA1-C1 will get one of three different doses - low, medium, or high - to find the dose that is safest and gives the best antibody response to the vaccine. After each shot, participants remain in the clinic for 30 minutes for observation. They return to the clinic 1, 2, 3, 7, and 14 days after each shot for a physical examination and to check for side effects. Blood samples are drawn before each shot and at selected return clinic visits to check for side effects and to measure the effect of the vaccine. During the rainy seasons after the second and third vaccinations, subjects come to the clinic once a month for an examination and a blood test. During the dry season, subjects come to the clinic 3 months before the last shot is given for an examination and blood test. Additional blood tests may be done on participants who develop malaria. If found to be safe in adults, further studies with this vaccine will be done in children exposed to malaria, as it is children who bear the brunt of this disease.
This study will evaluate the safety of two experimental malaria vaccines in healthy volunteers and examine their immune response to them. Safety will be assessed by comparing vaccine side effects in groups of volunteers who receive increasing doses of the same vaccine (dose-escalating study). Immune response will be evaluated by comparing the levels of antibody production with each dose. (Antibodies are infection-fighting proteins produced by the immune system.) The two vaccines in this study contain different types of a malaria protein called MSP1: one type is MSP142FVO and the other is MSP1423D7. Malaria parasites are spread from person to person by mosquitoes. There are four types of malaria parasites. The vaccine tested in this study is designed to work against Plasmodium falciparum, the parasite responsible for most deaths in children due to malaria in sub-Saharan Africa. The vaccine stimulates the body to produce antibodies that prevent P. falciparum from entering the person's red blood cells. Healthy normal volunteers between 18 and 50 years of age may be eligible for this 12-month study, conducted at Quintiles Phase 1 Services in Lenexa, Kansas. Candidates are screened with a medical history, physical examination, and blood and urine tests. Participants receive three doses of the vaccine-on the first day of the study (day 0), at 1 month (day 28), and at 6 months (day 180) -through injection into an arm muscle. The first group of subjects receives 5 micrograms of vaccine, the second group receives 20 micrograms, and the third group receives 80 micrograms. All participants are observed in the clinic for 30 minutes after each immunization for immediate reactions to the vaccine and keep a record of their temperature and of any reactions and side effects they experience for 6 days after the vaccination. At various intervals throughout the study, participants undergo a brief physical examination and blood tests. Women of childbearing potential have a urine pregnancy test on the day of each injection.
The purpose of this study is to see if children, who develop coma from malaria, are not making enough of a vitamin-like chemical, tetrahydrobiopterin (BH4), which is required for the brain to function normally. This information may help to identify new ways to treat malaria in the future. Study participants will include 512 children, ages 6 months to 6 years. Participants will be placed into one of 4 groups: well children; children with mild malaria; children without malaria, but with a medical problem involving the brain that requires a lumbar puncture for diagnosis (a procedure in which a needle is placed into an area surrounding the spinal cord and a sample of cerebral spinal fluid is removed); and children with a severe form of malaria affecting the brain called cerebral malaria. Study procedures will include blood samples, urine samples and lumbar puncture, only if necessary for diagnosis as part of standard practice procedures. Participants will be involved in study related procedures for up to 3 weeks.
The purpose of this study is to evaluate three dose levels of a combination tablet and a fixed dose granule formulation of pyronaridine and artesunate (PA) for the treatment of acute uncomplicated falciparum malaria in children.
No pediatric formulations of quinine exist. Therefore, quinine tablets are broken into 2 or 4 parts, according to the body weight. Based on the body weight, 1/2 or 1/4 a tablet is administered to the child. At this moment, quinine sulphate pellets are developed. These pellets enable an adequate dosing according to the body weight. 56 children with malaria will be dosed every 8 hours during 7 days with 10-15mg/kg body weight.
The purpose of this pilot study is to evaluate the use of (1) 'malaria prevalence', (2) 'malaria incidence' and (3) 'malaria mortality' as a measure of malaria transmission in The Gambia, while mosquito insecticides (larvicides) are used to control malaria-carrying mosquitoes. Two thousand children aged 6 months to 10 years of age will be recruited from villages in the study area. They will be monitored over 7 months for the presence of malaria parasites and signs and symptoms of the disease.