View clinical trials related to Malaria.
Filter by:The proposed study has as the main objective to investigate the effect of schistosome and STH infections and the effect of an anthelminthic intervention on P. falciparum malaria, related anaemia and malaria antibody responses among school and pre-school children in Mwanza, Tanzania. The study will include a cross-sectional baseline survey followed by an anthelminthic intervention trial of two years duration. At baseline, prevalence and intensity of malaria, schistosome and STH infections and the prevalence of anaemia will be determined by examination of blood, faecal and urine samples. Spleen and liver size and consistency will be determined by palpation. P. falciparum specific antibodies will be determined by ELISA. All children will be treated with a single dose of praziquantel 40mg/kg and albendazole 400mg. Children selected to participate in the intervention trial will be randomized into two groups, an intervention group of 258 children which will be followed up with albendazole 400mg and praziquantel 40mg/kg at three months interval and a control group of 258 children which will be followed up with praziquantel 40mg/kg and albendazole 400mg once a year in accordance with the National Schistosomiasis and Soil-transmitted Helminths Control Programme. At 12 months and 24 months follow-up, all examinations conducted at baseline survey will be repeated.
This study will examine the immune response to the malaria parasite at the cellular level to better understand why people achieve natural immunity to the parasite only after multiple infections and why immunity diminishes rapidly in the absence of ongoing infection. The results of this study may provide insight into whether and how natural immunity can be improved upon by vaccination. Healthy people 2-4 and 18-25 years of age who live in the village of Kambila, Mali, may be eligible for this 1-year study. Participants have a small blood sample collected from a vein in the arm and also from two finger pricks at the beginning of the study, then every 2 months for 6 months and at the end of the study (for a total of five samples). People who become ill with malaria are evaluated and treated by a physician. Those recovering from their first episode of malaria during the study period have another blood sample collection and two finger pricks (bringing to six the total number of samples collected).
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, sponsored by the National Institutes of Health and the University of Bamako in Mali, Africa, will examine factors that may protect against progression of malaria from mild to severe disease. Infection with the malaria parasite causes disease ranging in severity from mild or no symptoms to severe. A better understanding of what factors protect against disease progression may help scientists develop improved methods of disease prevention and treatment. The objectives of this study are to: - Identify differences in protective factors for severe malaria in Malinke children residing in two Mali villages, Kela and Kangaba. Genetic variations in hemoglobin proteins called HbS and HbC appear to confer protection against severe disease in some children but not others. HbC appears to protect young Malinke children living in Kela, but not in nearby Kangaba, while HbS protects children in Kangaba but not in Kela. In addition, deficiency of an enzyme produced by red blood cells called G6PD protects males, but not females, from severe malaria. - Investigate how fetal hemoglobin (HbF) may protect against malaria in infants and determine how HbS, HbC, G6PD deficiency, and beta-thalassemia trait affect the rate of HbF decline during the first 2 years of life. Children under 11 years of age who seek medical care at Kangaba or Kela health centers for symptoms of malaria may be eligible for this study. Each will be screened with a medical history, physical examination and blood test. In addition, healthy infants born to women referred to field site clinics may be enrolled for the newborn study. Participants undergo the following procedures: Children with mild malaria are treated with artesunate and amodiaquine. Those with severe malaria are treated with quinine. Blood is collected by finger prick every day for 4 days to evaluate the response to treatment and for genetic testing. Some blood is stored for future research related to malaria. Newborns have a heel or finger prick at 1, 3 and 6 months to collect a small blood sample for genetic testing. In addition, at the time of birth, a small amount of blood is collected from one of the blood vessels of the placenta. Some infants may be followed up to 2 years, with additional drops of blood taken at 12, 18 and 24 months. Some of the blood is stored for future research related to malaria.
This study, conducted by NIH and the University of Bamako in Mali, Africa, will study the effect of concurrent infections with malaria and filariasis on patients' immune response. Lymphatic filariasis is caused by infection with very small parasitic worms called Wuchereria bancrofti that are acquired from mosquitoes. The worms may cause no illness in many who are infected, but is some, they can cause swelling of the arms, legs, breast and genitalia, which may progress to permanent swelling referred to as elephantiasis. Malaria is caused by Plasmodium falciparum, another parasite that is spread by mosquitoes. It can cause fevers, headaches, body aches and weakness, and, if untreated, it can cause severe illness and death. The 8-month study will analyze measures of immune function in blood cells from people with or without filarial infections who become infected with malaria. The goal of the studies is to see if having a filarial worm infection affects immunity against malaria. Results of analysis of immune function in persons with malaria but without filaria infections will be compared with those harboring both filaria and malaria infections and also with results from healthy control subjects. Healthy individuals and patients with malaria and filarial infections between 1 and 8 years of age and between 18 to 65 years of age who live in N'Tessoni and healthy individuals living in Bamako, Mali (controls), may be eligible for this study. Participants have blood samples collected as follows during the study: - A blood sample will be collected at the beginning of the study. Individuals found to have the filarial worm infection have a second sample drawn at nighttime when the filarial worms are present in the blood. Treatment for filaria infection will be offered to all infected individuals at the end of the study. - A second sample will be collected during malaria season. Subjects will be interviewed about their health during the malaria season and re-tested for filarial and malaria infections with a finger-prick test. Those who test positive for malaria will be offered treatment to begin immediately after collection of the donated blood sample.. - A third sample will be collected after the end of the malaria season. Subjects will be interviewed again about their health and re-tested for filarial and malaria infections with a finger prick test. Those who have positive results for either infection will be offered treatment after collec...
This study will test an experimental vaccine called AMA1-C1 in children to see if it is safe and if it reduces episodes of malaria parasitemia (parasites in the blood) in children 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 less than 5 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 and 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. Tests of AMA1-C1 in 87 healthy people in the United States and in Mali found no serious harmful side effects of the vaccine. Two- and three-year-old children who live in Don gu bougou or Bancoumana, Mali, and are in general good health may be eligible for this study. Candidates are screened with a medical history, physical examination, and blood and urine tests. Participants are randomly assigned to receive two injections (shots) of either AMA1-C1 or a Haemophilus influenzae type B vaccine called Hiberix® (Registered Trademark), which is approved and used in Mali. All shots are given in the thigh muscle. Before the first shot, a small blood sample is obtained to make sure the child is well and to see if he or she has antibodies to the malaria parasite. The second shot is given 4 weeks after the first. After each shot, participants are observed in the clinic for 30 minutes. They return to the clinic 1, 2, 3, 7 and 14 days after each shot for a physical examination. Blood samples are drawn at some visits to check for side effects of the vaccine and to measure the response to it. During the rainy season after the second vaccination, subjects come to the clinic once a month for an examination. Any child who has been ill with a disease that could be malaria has a blood sample collected by fingerstick to test for malaria and to learn about the malaria parasites causing the infection. Every fourth visit a fingerstick sample is taken regardless of whether the child has been sick. If a child becomes sick at any time during the study, he or she will be brought to the clinic for examination a...
This study, conducted by the National Center for Malaria Control of Cambodia's Ministry of Health, the Guangzhou University of Traditional Chinese Medicine in the People's Republic of China, and the U.S. National Institutes of Health, will explore why some people with mild malaria progress to a severe form of the disease and why some malaria parasites are resistant to treatment. Malaria is caused by a parasite that is transmitted to humans through a mosquito bite. It can cause fever, aches, and weakness. Left untreated, it can cause severe illness and even death. Malaria can be cured when it is treated with effective medicine, but some malaria parasites are resistant to medicine. Children and adults with malaria symptoms and parasites in their blood will be recruited for this study from the Pursat Regional Health Center in Cambodia and the Thai-Cambodian border area within Pursat Province. Participants are hospitalized for 4 to 6 days at the Pursat Regional Health Center. A small blood sample is collected for genetic study and to look for substances in the blood, such as certain proteins, that may help protect against severe malaria. Patients are then treated with two doses of Artequick(Registered Trademark) (artemisinin-piperaquine), the first dose upon arrival at the hospital and the second the next day. (Participants who are pregnant will be treated with either quinine or artesunate-mefloquine instead of Artequick.) Patients undergo fingersticks several times during their hospital stay to collect a small drop of blood to monitor parasite counts. They are discharged from the hospital when their symptoms resolve and parasites can no longer be detected in their blood. After discharge, patients return to the clinic once a week for 3 weeks for a blood test to monitor for parasites, as some parasites may be slightly resistant to the medication. Patients in whom symptoms or parasites reappear undergo treatment with artesunate and mefloquine.
This study will evaluate the safety and efficacy of the experimental malaria vaccine AMA1-C1/Alhydrogel® (Registered Trademark) and determine whether a new, additional component of the vaccine may increase its effectiveness. Malaria is a debilitating and potentially fatal blood disease transmitted by a parasite found in certain mosquitoes. The AMA1-C1 vaccine has been designed to create an immune response against the parasite and prevent the disease. The purpose of the study is to determine whether the additional component-protein pieces known as CpG- improves the immune response to the vaccine without causing problematic side effects. Volunteers must be healthy adults between 18 and 45 years old. Individuals who have had malaria in the past or have recently traveled to areas where malaria is endemic will be excluded from the study. Candidates will be screened with a physical examination, blood tests, and medical history. Participants will be involved in a three-stage study. In the first stage, a group of participants will receive either a high dose of the vaccine alone or a low dose combined with the CpG protein. In the second stage, a different group of participants will receive a high dose of the vaccine alone or a high dose combined with CpG. In the third stage, a larger group of participants will receive a high dose of the vaccine alone or a high dose combined with CpG. The vaccine will be injected into the muscle of the upper arm, and all participants will receive three doses of the vaccine with 28 days between doses to monitor possible reactions and side effects. Participants will be monitored for 30 minutes after each injection and will record any symptoms they experience over the six days after receiving their dose. In addition, participants will be examined over the course of six months during and after the trial with physical exams and blood and urine tests.