View clinical trials related to Malaria.
Filter by:A randomised, placebo-controlled, dose-escalation study to investigate safety and toleration of OZ439 OD for 3 days to healthy male and female volunteers. The study aims: - To determine the safety and tolerability of ascending doses of OZ439 OD for three days. - To assess pharmacokinetic parameters of ascending doses of OZ439 given OD. - To identify the maximum tolerated dose of OZ439 administered.
Preliminary studies have supported the background efficacy of local standard anti-malarial medications in the treatment of uncomplicated knowlesi malaria, however this has not been tested systematically and there are no current WHO treatment guidelines for this infection. There are both health cost benefits to a more rapidly acting agent, and due to difficulties with microscopic identification there may be more effective treatment for all malaria species if an aligned treatment guideline could be supported. In addition, no therapeutic efficacy monitoring of current first line anti-malarials used for the treatment of P. vivax malaria have been conducted in Malaysia. The investigators aim to test whether the fixed combination of artesunate-mefloquine is superior to chloroquine in order to define the optimal treatment for both uncomplicated P. knowlesi and P. vivax infection in both adults and children in this region.
In Afghanistan, studies over the past 15 years have shown a high degree of Plasmodium falciparum resistance to chloroquine. In 2003 the high failure rate of chloroquine against falciparum malaria led the national malaria treatment programme to switch its recommended first line drug treatment for uncomplicated Plasmodium falciparum malaria to artemisinin-based combination therapy (ACT) in the form of Artesunate/Sulphadoxine-Pyrimethamine (AS+SP). Second line drug treatment is oral quinine (7 days). For operational reasons, prior to recent studies (manuscript in preparation) there have been no molecular data on P. falciparum SP resistance markers from within the borders of Afghanistan. These studies have revealed early evidence of increasing SP resistance (resistance polymorphisms with double DHFR & triple DHPS mutations). The aim of this study is to conduct a focused, prospective study in Kunar for monitoring of the efficacy of the AS+SP combination in this province, along with molecular studies of isolates from recruited patients.
Plasmodium falciparum causes malaria and approximately 665 000 deaths each year. chloroquine and sulphadoxine-pyrimethamine resistant P. falciparum are widespread. An artemisinin derivative combined with lumefantrine, amodiaquine or piperaquine is therefore recommended for the treatment of malaria in Africa. However, artemisinin resistance appears to be developing and resistance/tolerance to amodiaquine and lumefantrine exists. We are presently conducting a study in Guinea-Bissau. Preliminary data indicates that the effectiveness and availability of artemether-lumefantrine (AL), the 1st line drug, is poor. Consequently there is a need for another treatment option. Dihydroartemisinin-piperaquine (DP) has been shown to be efficacious and well tolerated in several African countries and is therefore such an option. A clinical trial comparing the safety and efficacy of artemether-lumefantrine and dihydroartemisinin-piperaquine is therefore needed. Parents to children seeking Bandim Health Centre (CSB) with symptoms compatible with malaria will be informed of the study. If accepting and the child fulfil the inclusion criteria, the child will be randomised to treatment with either AL or DP. The treatment will be given supervised at the health centre in the morning and the evening on day 0, day 1, and day 2. At each visit and in the morning on day 3, the child will be examined, the mother asked for any symptoms and signs of side-effects, the temperature measured. Furthermore, a blood sample will be taken for examination of malaria parasites. On day 0 samples for measurement of antimalarial drugs and for genotyping of the parasites will be taken on filterpaper. In a subgroup of 50 children a blood sample for in vitro culturing and for analysis of the number of leucocytes will also be taken. After having finished the treatment the children will be followed on day 7 and then once a week until day 42. At each visit the condition of the child will be examined and a bloodsample taken for examination of parasites in the blood. Furthermore, a filterpaper bloodsample will be collected for measurement of the drug concentration of if the child has recrudescence for genotyping of the parasites. On day 0, 3 and 42 the haemoglobin level will be examined. The result of the two treatments will be evaluated by comparing the number of children with recurrent parasitaemia, both corrected and uncorrected (recrudescence vs. reinfections). This will be presented as adequate clinical and parasitological response rates PCR-corrected and PCR-uncorrected. Furthermore, the chance in haemoglobin level from day 0 till day 3 and till day 42 will be compared. The concentration of the antimalarial drug in the blood samples taken at the visit before the re-parasitaemia will be capered to the concentrations in children without re-parasitaemia. Assuming a 20% loss to follow up a total of 346 children should be included. For the children included, health care and medications at Bandim Health Centre will be free during the study period but no other gifts or payments will be made. Results will be presented to the staff at the Bandim health centre and the ministry of Health and will be published in an international peer reviewed journal.
The program's overall objective is to assess the impact of a package of interventions aimed at reducing malaria-related mortality and morbidity in pregnant women and newborns by ensuring access to a package of interventions designed to optimise the detection and treatment of malaria during pregnancy as well as improving the early detection and treatment of malaria during the third trimester.
This is a two-arm study aiming at recruiting 150 patients to assess the efficacy of Amodiaquine-Artesunate (ASAQ) and Artemether-Lumefantrine (AL) in patients with a microscopy positive diagnosis of malaria in Nanoro, Burkina Faso and assess the performance of the Rapid Diagnosis Tests (RDTs) compared to the microscopy.
The investigators hypothesize that the addition of primaquine (PQ) to both artemether-lumefantrine (AL) and chloroquine (CQ) for the treatment of Plasmodium vivax infection will result in decreased chance of relapse by about 60%. The investigators plan to assess the therapeutic efficacy of AL compared to combined AL + PQ and CQ compared to combined CQ + PQ against P. vivax infection. They also plan to determine the number of recurrent vivax episodes in patients receiving PQ compared to those who don't receive PQ. Patients aged above 1 year with symptomatic malaria presenting to health centers will be enrolled for treatment with AL, AL+PQ, CQ, or CQ+PQ for P. vivax infection. Phase 1 of the study will monitor the clinical, parasitological, and hematological parameters for P. vivax infection over a 42-day follow-up period, which will be used to evaluate drug efficacy. Phase 2 will continue monthly follow-up of these patients for one year to assess frequency of recurring vivax infections. Results from this research study will be used to assist Ethiopia in assessing their current national malaria drug policies.
Malaria in pregnancy (MiP) due to Plasmodium falciparum infection is a major cause of maternal morbidity and poor birth outcomes. Intermittent preventive treatment in pregnancy (IPTp) with Sulfadoxine pyrimethamine (SP), the administration of SP at predefined intervals in the second and third trimesters of pregnancy irrespective of the presence of malaria parasitemia, is currently recommended for HIV-negative women in all areas with stable moderate to high transmission of malaria. Due to increasing resistance to SP, it is no longer used as a treatment for symptomatic malaria, and the efficacy of IPTp-SP seems to be decreased. This study aims to look at a new drug, Dihydroartemisinin-Piperaquine (DP) for IPTp, as well as to explore the strategy of intermittent screening and treatment in pregnancy (ISTp) with DP. This strategy uses increased screening at time of focused antenatal care (FANC) with treatment of women who screen positive. The hypothesis is that the efficacy of both IPTp-DP and ISTp-DP will be associated with a reduction in malaria infection at delivery among HIV(-) women when compared to IPTp-SP, in an area with decreasing malaria transmission and high levels of SP resistance in Kenya.
ChAd63 METRAP and MVA METRAP are investigational vaccines for malaria which have been studied in clinical trials for 4 years, and 10 years, respectively. These vaccines are inactivated viruses which have been modified so that they cannot reproduce in humans. Genetic information has been added to make them express proteins of the malaria parasite so that they stimulate an immune response against malaria. This trial examines whether a compound called Matrix M™ can be used in efforts to improve on how well the vaccines work at preventing malaria. Matrix M™ is a vaccine adjuvant, a compound used to improve the immune responses to vaccines. In this trial, Matrix M™ will be combined with each of the vaccines. The objectives are to assess the safety of the vaccines when combined with Matrix M™, and to determine what effect Matrix M™ has on the immune responses to the vaccines. We will assess the safety of the vaccines (ChAd63 METRAP combined with Matrix M™; and MVA METRAP combined with Matrix M™) by administering them to healthy volunteers and monitoring them for 6 months in total. Eight volunteers will receive the vaccines with the low dose of Matrix M™, eight will receive the vaccines with the standard dose of Matrix M™, and six volunteers will receive the vaccines alone as a comparison group. We will also look at what effect Matrix M™ has on the immune responses to the vaccines, as measured from blood tests. Volunteers will have study visits to the Clinical Centre for Vaccinology and Tropical Medicine on the Churchill Hospital site, Oxford, where they will have vaccinations, have blood taken to monitor safety and measure immune responses to vaccination, and be monitored for symptoms/side effects from vaccination.
Malaria transmission is falling in some parts of Africa as bed nets and anti-malarials become more widely available. However, transmission still persists and it appears that additional control measures are required. The leading malaria vaccine candidate in development is RTS,S which has efficacy against clinical malaria measured at 30-50% in the field. This partial protection might be enhanced by combination with other components. The other vaccination approach that has produced repeatable efficacy in humans is the use of viral vectors to induce T cell responses. Previous attempts with this vaccine approach have been effective in challenge studies in Oxford, but ineffective in the field, probably because of reduced immunogenicity. Recently, studies in Oxford, Kenya and the Gambia have shown higher levels of immunogenicity by using a chimpanzee adenovirus (ChAd63) followed by an attenuated vaccinia virus (modified vaccinia Ankara) to deliver the pre-erythrocytic antigen, multiple epitope string with thrombospondin- related adhesion protein (ME-TRAP). The increase in immunogenicity has lead to sterile protection in 3 out of 14 volunteers and partial protection in 5 out of 14 volunteers in challenge studies. The investigators propose a Phase 2b study of 120 healthy adult men in Kenya. The investigators will assess the efficacy and further evaluate the immunogenicity and safety profile of the vaccine regimen. The investigators also intend to assess the correlates of efficacy and natural immunity.