View clinical trials related to PLASMODIUM FALCIPARUM MALARIA.
Filter by:The study is designed to establish infectivity of Plasmodium falciparum sporozoites (PfSPZ) via intravenous (IV) administration in three groups with different malaria immunity-status: 1. Adults with a history of lifelong malaria exposure without sickle cell trait (HbAA) 2. Adults with a history of lifelong malaria exposure with sickle cell trait (HbAS) 3. Adults without previous malaria episodes without sickle cell trait (HbAA) Initially a dose of 3,200 PfSPZ will be given and the time until thick blood smear positivity after challenge will be assessed. If in any of the groups with a history of lifelong malaria exposure, 50% or less of individuals become thick blood smear positive during the 28 days post injection of PfSPZ Challenge, the dose will be increased 4-fold to 12,800 PfSPZ in this group.
This trial will evaluate whether relatively non-immune populations in endemic countries can effectively generate significant cellular and humoral immune responses that confer protection against P. falciparum infection after inoculation of aseptic, purified, vialed, metabolically active, non-replicating (live, radiation attenuated) Plasmodium falciparum sporozoites (PfSPZ Vaccine) administered intravenously (IV).
This will be a Proof-of-concept / Phase IIa, open label study to examine the efficacy of DSM265 in uncomplicated Plasmodium vivax and Plasmodium falciparum blood-stage malaria in adult patients. A minimum of two cohorts (20 patients) and a maximum of 6 cohorts (60 patients, 3 dose levels) will be tested. The starting dose of DSM265 for the first P. vivax and P. falciparum cohorts will be 400 mg. This dose is expected to show complete clearance of parasites by microscopy by Day 7 and a decrease in recrudescence rate assessed at Day 14 (success criteria for dose de-escalation and continuation of the study).
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).
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.
The purpose of this study is to evaluate an experimental malaria vaccine for its ability to prevent malaria infection or disease in a blood-stage challenge model (when volunteers are infected with malaria parasites using malaria-infected red blood cells). The vaccine being testing is a protein called FMP2.1, which is given with an adjuvant (a substance to improve the body's response to a vaccination) called AS01B. The aim is to use this protein and adjuvant to help the body make an immune response against parts of the malaria parasite. This study will enable assessment of: 1. The ability of the vaccine to prevent malaria infection. 2. The safety of the vaccine in healthy participants. 3. The response of the human immune system to the vaccine. This will be done by giving participants three vaccinations and then exposing them to malaria infection by transfusing a small number of red blood cells infected with malaria under carefully regulated conditions. Participants will be followed closely to observe if and when they develop malaria. If the vaccine provides some protection against malaria, participants will take longer to develop malaria than usual or will not develop malaria at all. The study will enrol 15 participants to be vaccinated and then challenged with malaria in addition to recruit 15 individuals to be control subjects.
The purpose of this study is to assess the effectiveness of different malaria control strategies in the first year of life. The effectiveness of delivering an intermittent screening and treatment programme with dihydroartemisinin-piperaquine (DHP), linked to local immunization programmes, will be compared to the current practice of passive case detection of malaria. This study has two objectives: 1. To assess the effectiveness of intermittent screening and treatment with dihydroartemisinin-piperaquine (DHP) administered at 2, 3, 4 and 9 months of age compared with the current practice of passive detection and treatment for malaria in an area with high drug resistance levels to both P. falciparum and P. vivax. 2. To evaluate the safety, efficacy and population pharmacokinetics of DHP in children under 1 year of age.
This is a clinical trial in which healthy volunteers will be administered experimental malaria vaccines. One group of volunteers will receive vaccination with the leading malaria vaccine candidate, RTS,S/AS01. This vaccine schedule will consist of 3 doses of RTS,S/AS01 with an interval of 4 weeks between doses (Doses given at 0,4 and 8 week timepoints). Another group will receive a vaccination schedule composed of the same dosage and timing regimen of RTS,S, but they will also receive vaccination with ChAd63 ME-TRAP, 2 weeks after the first RTS,S followed 8 weeks later by vaccination with MVA ME-TRAP (2 and 10 week timepoints). The study will assess the safety of the vaccinations, and the immune responses to vaccination. Immune responses are measured by tests on blood samples. Volunteers will be infected with malaria by mosquito bites, 12 weeks after the first vaccination. In addition, a group of volunteers not receiving vaccines will also be infected with malaria by the same method. These infection experiments will be used to assess vaccine efficacy: how well the vaccines act to prevent malaria disease. A further single volunteer may also be infected with malaria; this volunteer participated in a previous trial where they received vaccines and was completely protected against malaria disease after infection by mosquito bite. The RTS,S/AS01 vaccine is a protein (RTS,S) mixed with an adjuvant (AS01). The ChAd63 ME-TRAP and MVA ME-TRAP vaccines are called viral vectored vaccines. They are made from viruses which are modified so that they can not multiply. The viruses have extra DNA in them so that after injection, the body makes malaria proteins (but malaria does not develop), so that the immune system builds a response to malaria without having been infected by it. Healthy volunteers will be recruited in England at three research sites: in Oxford, London and Southampton.
The overall aim of this study is two fold: 1. to pilot targeted chemo-elimination of plasmodium falciparum malaria in known areas of artemisinin resistance in South East Asia. 2. to understand the micro-epidemiology of malaria in these areas; chiefly, the prevalence and importance to on-going transmission of sub-clinical p.f malaria infections.
The aim of the study was to follow clearance of malaria infections and detection of new malaria episodes after initiation of antimalarial treatment in Tanzanian children. For this purpose the investigators used five diagnostic tools, 2 Rapid Diagnostic tests based on Histidine Rich Protein 2(HRP2) and Lactate dehydrogenase(LDH), 2 microscopical methods and one polymerase chain reaction (PCR). The investigators followed the 53 enrolled children during 42 days.