View clinical trials related to Malaria.
Filter by:Iron deficiency and anemia are health issues affecting mainly infants and women in developing countries. Iron deficiency in infancy can have long-lasting impact on cognitive and motor development of the child. Iron fortification has shown to be effective against anemia. However, in areas with a high burden of infectious diseases iron may increase the risk of unfavorable gut microbiota composition possibly influencing diarrhea prevalence. Therefore we want to assess the effects of home fortification of complementary food with two iron-containing micronutrient powders (MNPs) with and without the addition of a prebiotic (7.5 g of galactooligosaccharides as GOS-75) compared to a control on the composition of the gut microbiota of Kenyan infants. In addition, iron deficiency may iimpair adaptive immunity. Following Kenyan Minstry of Health guidelines, infants receive their first measles vaccine at 9 months. In this study we will use an MNP with a moderate iron dose of 5 mg, with 2.5 mg of Fe as NaFeEDTA and 2.5 mg of Fe as ferrous fumarate (+Fe). There will be 3 study groups MNP, MNP+Fe and MNP+Fe+GOS. The infants will be enrolled in the study at the age of 6-10 months and will consume a home-fortified maize porridge for four months. At baseline and endpoint (after 4 months of intervention), we will collect blood samples of the infants in order to assess anemia, iron status, and inflammation. In addition, we will assess the effect of iron supplementation on measles vaccine response. Fecal samples (from child and mother) will be collected at baseline, 3 weeks and at endpoint in order to evaluate the changes in gut microbiota and gut inflammation. During the intervention, in a sub-group of children who receive broad-spectrum antibiotics, we will compare how the three different interventions modify the effect of antibiotics on the infant gut microbiota. We will opportunistically select children that are enrolled in the study and who become ill, and who are prescribed antibiotics by the local health care team, according to the local standard of care in the study area. Five additional stool samples from these children will be collected (day 0 (before the first antibiotic dose), 5, 10, 20 and 40) to evaluate the changes in the gut microbiota and gut inflammation. Three years after the study end, we would like to collect a blood and stool sample from the children and examine the iron status and gut microbiome respectively.
The investigators propose to leverage the unique infrastructures and expertise of National Centre for Parasitology Entomology and Malaria Control and the Pasteur Institute in Cambodia and combine modern fieldwork, including a mobile laboratory fully equipped for molecular biology and culture experiments, with state-of-the-art genomic analyses to investigate how Plasmodium vivax parasites respond to antimalarial drugs. The investigators will focus on resistance to CQ, the choice treatment for vivax malaria in most endemic countries, for which treatment failures have been reported in Cambodia. The study will address some of the key biological mechanisms limiting the efficiency of drug therapy in P. vivax, including the identification of genetic polymorphisms underlying drug resistance in Cambodian P. vivax. The findings will provide a first unbiased perspective on the mechanisms of drug resistance in P. vivax and have the strong potential to significantly improve malaria control in Southeast Asia.
TÜCHMI-002 is a single center, randomized, placebo-controlled, double-blinded, PfSPZ Challenge dose finding trial with two chemoprophylactic regimens and subsequent controlled human malaria infection (CHMI).
Malaria, a disease caused by the parasite Plasmodium, is one of the world's major infectious diseases. With approximately 627.000 deaths a year, it is both a chief cause of morbidity and mortality as well as a significant contribution to ongoing poverty in endemic countries. Ultimately, the key to malaria control, and hopefully eradication, would be an effective vaccine. Though a number of vaccine-candidates have entered the pipeline of pre-clinical and clinical development, they have yet to achieve the level of efficacy necessary for effective malaria prevention. It has been shown previously that if healthy human volunteers taking chloroquine chemoprophylaxis are repeatedly exposed to Plasmodium parasites through the bites of infected mosquitoes, they are fully protected against a later challenge infection with a 'homologous' (genetically similar) Plasmodium parasite. This process is known as ChemoProphylaxis and Sporozoites, or CPS-immunization. One of the obstacles to developing an effective vaccine is the genetic heterogeneity of malaria parasites. To further consider the development of whole-parasite based vaccines against malaria and in order to better understand the protective immunity induced by CPS-immunization, it is essential to investigate whether heterologous protection against genetically diverse (heterologous) P. falciparum clones can be induced. This is a single center, randomized, double-blind study to determine whether healthy volunteers immunized with P. falciparum NF54 parasites under chloroquine prophylaxis are protected against a challenge infection with the genetically distinct NF135.C10 or NF166.C8 P. falciparum clones.
Background: - Malaria is a disease that affects many children and adults in Uganda and Africa. If it is not treated, it can make some people severely ill. TMP-SMX (Trade names Bactrim, Septrin) is a drug that is given to children born to HIV-positive mothers to help prevent infection. Studies have shown that TMP-SMX also may kill malaria infection in the very early stages of infection in the body, which may positively impact the way the body can fight malaria infection. Researchers want to know if giving TMP-SMX for 6 months longer than usual helps children fight malaria better in this way. Objective: - To find out if taking TMP-SMX for longer than usual helps fight off malaria in infants. Eligibility: - Infants 0-6 weeks of age who are HIV negative. Design: - Infants will be screened with a medical history and physical exam. A small amount of blood will be taken. The mothers medical records will be reviewed. Mothers will be asked about when they breastfeed. - Participants will take TMP-SMX according to their doctor s orders. In Uganda, mothers will get a mosquito net with insecticide on it as per standard of care. - Participants will come to the clinic once a month, every month, until the study ends in 2 3 years. Each visit will repeat the screening visit. - Participants will also visit the clinic every month for a medical history, physical exam, and different blood tests. - Six weeks after breastfeeding is stopped, children taking TMP-SMX will come into the clinic and will either be taken off the drug or will continue taking the drug for 6 more months. - If a child becomes sick, it is important that the mother bring him or her to the RHSP clinic in Rakai.
The purpose of this study is to assess efficacy and safety of a single low-dose Primaquine added to standard artemether/lumefantrine treatment for the clearance of Plasmodium falciparum gametocytes among patients with uncomplicated malaria aged 1 year and above regardless of their G6PD status.
Artemether-lumefantrine has been used in Tanzania as first-line treatment for uncomplicated malaria since 2007. Nonetheless, a report of increased proportion of patients with parasitaemia on day 1 following treatment with artemisinin based combination therapies has emerged from Kenya. Similarly, resistance against artemisinins has been confirmed in South-East Asia and it can spread to Africa. Therefore, the purpose of this study was to assess the efficacy of Artemether-lumefantrine for the treatment of uncomplicated malaria among children after five years of wide scale use of the drug in Tanzania.
Two vaccines, ChAd63 ME-TRAP and MVA ME-TRAP, are being tested to see if they will form a safe and effective vaccination strategy against malaria. The vaccines have been found to be well tolerated when tested in Gambian adults, young children and infants, who are at risk of severe malaria. Both vaccines will be given to participating infants at the same time as some EPI (Expanded Program on Immunization) vaccines, and assess whether they are safe and still helpful in making the body's defense system respond.
A single dose study to investigate how different formulations of OZ439 co-administered with PQP tablest are processed by the body when taken without food
A randomised, double-blind single-dose (loose combination) study in patients with uncomplicated Plasmodium falciparum malaria. The study will test for efficacy/futility through analyses, using Bayesian methodology. Adults and children will be included through progressive step-down in age following safety analyses. This study investigates the efficacy exposure-response of OZ439/PQP combination in the target populations and if it meets its efficacy objectives, will inform dose setting for Phase III studies.