View clinical trials related to Malaria.
Filter by:Among the best practices recommended for malaria control during pregnancy is ensuring effective case management of malaria illness. However, this is often not practiced because (1) malaria infection in pregnancy is often asymptomatic, (2) peripheral parasitaemia may be absent even when the placenta is heavily parasitized, (3) implementing diagnosis and treatment of malaria within a routine antenatal service may be difficult and (4) antimalarial treatment options available to pregnant women are limited due to resistance to chloroquine(CQ) and sulfadoxine-pyrimethamine(SP0 and paucity of safety and efficacy data on other antimalarial drugs in pregnancy, particularly artemisinin combination treatments (ACT). Therefore the commonest recommended practice in pregnancy is the administration of SP as intermittent preventive treatment (SP-IPTp). However, the effectiveness of SP-IPTp has been questioned because parasite resistance to SP is spreading rapidly across sub-Saharan Africa. This is a three-arm open label randomised control non-inferiority trial of insecticide-treated nets(ITN) plus rapid diagnostic test(RDT) screening, and treatment with SP or amodiaquine plus artimisinin(AQ+AS) versus ITN plus IPTp using SP. It is to be carried out in pregnant women of all parities presenting at enrolling antenatal clinics with a gestation of 16 to 20 weeks at their first booking. The key objectives are to demonstrate that (1) the prevalence of severe anaemia (Hb < 8g/dl) at 34 to 36 weeks of gestation (2) the prevalence of low birth weight (BW < 2500g) at delivery or within 72 hours after delivery (3) the prevalence of placenta parasitaemia and (4) the incidence of serious and non-serious adverse events in the ITN plus RDT screening and treatment arm are not greater than those in the ITN plus IPTp arm. Alongside the clinical assessments, health care cost assessments will be done to determine the cost-effectiveness of the two delivery strategies measured as cases of severe maternal anaemia averted.
This study will evaluate the safety and immune response of healthy volunteers to an experimental malaria vaccine called AMA1-C1/Alhydrogel® (Registered Trademark) + CPG 7909. Malaria is an infection of red blood cells caused by a parasite, Plasmodium falciparum, that is spread by certain kinds of mosquitoes. Each year, about 1 million people are killed by malaria worldwide, most of them young children in Africa. AMA1 C1 may help block the malaria parasite from getting into red blood cells. The vaccine is mixed with Alhydrogel® (Registered Trademark), a material that is commonly added to vaccines to make them work better (also called an adjuvant). Besides evaluating the vaccine, this study will also test two solutions of an experimental adjuvant, CPG 7909-P and CPG 7909-S. Healthy people between 18 and 50 years of age may be eligible for this 7-month study. Participants are randomly assigned to one of four treatment groups (A, B, C or D below). All receive two vaccinations, given as a shot in the upper arm either 1 or 2 months apart, as shown: - Group A: AMA1 CI/Alhydrogel® (Registered Trademark)/CPG 7909-P at Day 0 and Day 28 (1-month interval) - Group B: AMA1 CI/Alhydrogel® (Registered Trademark)/CPG 7909-S at Day 0 and Day 28 (1-month interval) - Group C: AMA1 CI/Alhydrogel® (Registered Trademark)/CPG 7909-P at Day 0 and Day 56 (2-month interval) - Group D: AMA1 CI/Alhydrogel® (Registered Trademark)/CPG 7909-S at Day 0 and Day 56 (2-month interval) Group A and B participants return to the clinic for checkups at 3, 7, and 14 days after each vaccination and again at months 2, 3, 4, 5, and 7. Group C and D participants come to the clinic at 3, 7, and 14 days after each vaccination and again at months 3, 4, 5, and 7. In addition to the vaccinations, the study includes the following procedures: - Photographs of the subject's arm where the vaccination is given if a rash develops. - Daily temperature and symptoms record for the first 6 days after each of the 2 vaccinations, and at any other time there is concern about fever or other symptoms. - Blood draws about 12 times during the study to check for safety and to measure the antibody response and the effect of the study vaccine. Some participants may be asked to undergo plasmapheresis, a procedure for collecting plasma, the liquid part of the blood. This is done by using a machine called a blood cell separator. Blood is collected through a needle place...
We will be studying the clinical efficacy of amodiaquine-artesunate currently being studied in an intermittent preventive therapy in infants (IPTi)trial in the same area in order to correlate preventive efficacy seen in IPTi with efficacy for treatment of symptomatic malaria for each regimen.
The primary objective of this phase III study is to compare the efficacy and safety of the fixed combination of pyronaridine artesunate (Pyramax®, PA) with that of Coartem® (artemether lumefantrine, AL) in children and adults with uncomplicated P falciparum malaria in Africa and South East Asia.
Malarone® (atovaquone/proguanil) is frequently used in malaria prophylaxis. Unfortunately, there are indications that certain anti-HIV agents may decrease atovaquone plasma levels by induction of atovaquone metabolism. For travelling HIV patients, the clinical consequences of these possible drug drug interactions are serious, since a diminished exposure to the anti-malarial drug will result in suboptimal prophylaxis of malaria and potential development of drug resistant strains of Plasmodium falciparum. The purpose of this study is to find out if HIV patients using HAART regimes with either lopinavir/ritonavir, atazanavir/ritonavir or efavirenz have lower atovaquone plasma levels than healthy volunteers after a single dose of atovaquone/proguanil.
The purpose of this study is to determine the extend and the nature of anemia in school children and the correlation between anemia and schistosomiasis infections, malaria infections and/or malnutrition (iron deficiency).
This study will evaluate the safety of an experimental vaccine can protect people from malaria and study its effects. Malaria, which affects many people in Mali and other countries in Africa, is caused by germs spread by mosquito bites. In Mali, the disease is the leading cause of death. Researchers at the Malaria Research and Training Center at the University of Bamako are working with NIH to develop an experimental vaccine against the disease. The vaccine, called AMA1-C1Alhydrogel (or AMA1-C1), contains a small part of the malaria-causing germ. CPG-7909 is a product to improve the body's reactions to vaccines. Patients ages 18 to 45 who are in good health, who live in Don gu bougou, Mali, and plan to stay there for the study duration, and who are not pregnant or breast feeding may be eligible for this study. There will be 24 participants. At an initial evaluation of 2 to 3 hours, patients will have a physical examination and undergo blood and urine tests regarding the blood, kidneys, and liver. During the study, patients will receive two injections of one of the two experimental malaria vaccines. Injections of the same vaccine each time, 4 weeks apart, are given in an arm muscle. Patients will receive either AMA1-C1 or AMA1-C1 with CPG-7909 but will not know which of the vaccines they receive until the study's end. After each injection, patients will stay in the clinic for 30 minutes for observation. They will return after 1, 2, 3, 7, and 14 days to be examined and report how they are feeling. Blood and urine samples will be collected at some visits. Each clinic visit takes 1 to 2 hours. If for some reason a patient receives only one injection, he or she will be asked to return to the clinic for routine visits until the study's end. After the first 2 months, patients will return to the clinic once a month for 30 weeks. In that period, 12 blood samples will be taken. Researchers want to be sure that the vaccine is not harmful as well as to measure the vaccine's effects. Risks in this study include pain, swelling, and redness at the injection site; fever; and gastrointestinal problems. Some people have had a temporary decrease in white blood cells after receiving the vaccine. There is a small chance of a severe allergic reaction. However, researchers will closely watch patients immediately after each injection and will give treatment if a serious reaction occurs. Participants will receive 75 kilos of rice and 75 kilos of millet (165 lb. of ...
The purpose of this study is to test three candidate malaria vaccines in new combinations to assess their efficacy at preventing malaria infection and triggering immune responses against malaria.
The primary objective of this phase III clinical study is to compare the efficacy and safety of the fixed combination of pyronaridine artesunate (Pyramax®, PA) with that of the combination of mefloquine plus artesunate (MQ + AS) in children and adults with uncomplicated P falciparum malaria in South East Asia, India and Africa.
Malaria is fatal and increases the risk of death among children with sickle cell anemia. Chemoprophylaxis significantly improves quality of life in these children. In Uganda Chloroquine is the drug of choice for prophylaxis and yet it's effectiveness is limited due to high levels of resistance throughout the country. Intermittent presumptive treatment with sulfadoxine - Pyrimethamine a new approach to malaria prevention, has shown great potential in reducing incidence of malaria and anaemia among high risk groups such as pregnant women and infants. However no studies have been done in Uganda to determine if presumptive treatment with sulfadoxine- pyrimethamine reduces the incidence of malaria in children with sickle cell anaemia. Hypothesis : Presumptive treatment with sulfadoxine- Pyrimethamine is better than weekly chloroquine in reducing incidence of malaria in children with sickle cell anaemia.