View clinical trials related to PLASMODIUM FALCIPARUM MALARIA.
Filter by:In Nigeria, malaria is the commonest reason for outpatient clinic attendance in childhood and is responsible for about 20% of childhood deaths. The emergence of strains of P. falciparum resistant to chloroquine and sulfadoxine-pyrimethamine led to severe worsening of morbidity and mortality from malaria. As a result of resistance to previously used monotherapy, the World Health Organization (WHO) in 2001, recommended that malaria-endemic countries experiencing drug-resistant malaria infection adopt combination therapy. Artemisinin-based combination therapy (ACT) is preferred to the non-ACT combination. In this randomized open-label clinical trial, the safety and efficacy of pyronaridine-artesunate and artemether-lumefantrine in the treatment of malaria among children aged 3 to 144 months who have microscopically confirmed symptomatic Plasmodium falciparum malaria were compared. The study was carried out at the Oni Memorial Children's Hospital, Ring Road Ibadan. One hundred and seventy-two children between 3 and 120 months who meet the inclusion criteria will be enrolled after obtaining written or witnessed signed informed consent from the parents or guardian. A detailed history and physical examination were carried out on each enrollee. Finger prick blood samples were taken from each enrolee for thick blood smear for malaria parasite, haematocrit, and blood spots on filter paper. Five millilitres of venous blood will be taken from an arm vein for baseline liver function tests, creatinine, and random blood glucose on days 0, 3, 7 and 28. Enrollees were randomized into one of two groups. Group one received pyronaridine-artesunate while group two received artemether-lumefantrine at standard doses. Enrollees were seen daily from days 0-3, and on days 7, 14, 21 and 28. Study drugs were administered supervised at standard dosage on days 0, 1, and 2. History taking, physical examination and blood smears were done at each contact time. Special attention will be paid to adverse effects. Parasite clearance time, fever clearance time and cure rates were compared between the two groups.
This study will consist of two phases and be aimed at assessing the safety and tolerability of the new genetically attenuated GA2 malaria parasite (Phase 1) and its preliminary protective efficacy against controlled human malaria infection (Phase 2) in healthy Dutch volunteers.
National malaria control strategies in pregnant women relies primarily on effective case management along with the use of long lasting insecticide-treated nets (LLINs)throughout pregnancy and intermittent preventive treatment with sulfadoxine-pyrimethamine (IPTp-SP) in the second and third trimesters in malaria-endemic regions in sub-Saharan Africa (SSA). For the latter, 3 or more doses are recommended by the national malaria control program (NMCP) but available data suggests that only 19% of eligible women received this in 2016 despite observed high attendance to antenatal clinic (ANC). Adherence to IPTp may be affected by perceptions, acceptability and contextual factors that need to be understood and therefore improve the effectiveness of this health interventions. In addition, all malaria cases should be confirmed either by microscopy or using a rapid diagnostic test (RDTs) before any treatment. Despite the crucial role of RDTs in improving malaria case management SSA, many malaria cases are missed in pregnant women due to the power performance of recommended RDTs which are unable to detect very low parasitaemia. Identifying lower density infections in pregnant women by the use of highly-sensitive RDTs and clearing them with an effective ACT could improve the outcome of the pregnancy in addition to IPTp-SP.
In this project, the investigators aim at an operational research deployment of Ultrasensitive Rapid Diagnostic Test (URDT) -based Mass Screening and Treatment (MSAT) in the Malaria Elimination Task Force (METF) elimination program. This intervention will be tested in two types of setting. In group 1, MSAT will be used in a programmatic setting in order to decrease the reservoir of asymptomatic carriers in high incidence villages (following the same principles and objective as previously deployed MDA interventions). In group 2, the investigators take advantage of the lighter framework of MSAT to use it as a reactive intervention in order to respond to malaria outbreaks in low to intermediate incidence villages. The MSAT intervention will be preceded with community-level consent and community engagement (CE) activities. MSAT will be conducted over a period of approximately 1 week in each hamlet, village or group of villages, and will consist in administering a P. falciparum URDT to all individuals agreeing to participate. A limited subgroup (expected 5-25%) will be found positive and receive supervised treatment over 3 days for the standard regimen (DP to cure asexual stage infection + single low-dose primaquine to destroy gametocytes). After this intervention, the incidence of clinical falciparum episodes will be monitored by the village MP. In group 1, a comparison of the prevalence at baseline and 12 months after MSAT intervention will be performed through a second URDT survey, in addition to which both baseline and 12-month surveys will include the collection of a 200µL capillary blood sample for reference detection in the laboratory. The intervention will be evaluated primarily on its ability to reduce yearly cumulative incidence of clinical falciparum malaria compared to year before intervention. Additional evaluations of the impact of MSAT will include: in group 1, comparison of asymptomatic infection prevalence; and in group 2, modifications of the shape of the incidence curve following intervention. Funder: Wellcome Trust grant reference 106698/B/14/Z
Clinical pneumonia is a leading cause of pediatric hospitalization. The etiology is generally bacterial or viral. Prompt and optimal treatment of pneumonia is critical to reduce mortality. However, adequate pneumonia management is hampered by: a) the lack of a diagnostic tool that can be used at point-of-care (POC) and promptly and accurately allow the diagnosis of bacterial disease and b) lack of a prognostic POC test to help triage children in need of intensive assistance. Antibiotic therapy is frequently overprescribed as a result of suspected bacterial infections resulting in development of antibiotic resistance. Conversely, in malaria-endemic areas, antibiotics may also be "underprescribed" and children with bacterial pneumonia sent home without antibiotic therapy, when the clinical pneumonia is mistakenly attributed to a co-existing malaria infection. The investigators previously identified combinations of protein with 96% sensitivity and 86% specificity for detecting bacterial disease in Mozambican children with clinical pneumonia. The investigators' prior work showed that it is possible to identify biosignatures for diagnosis and prognosis using few proteins. Recently, other authors also identified different accurate biosignatures (e.g., IP-10, TRAIL and CRP). In this study, the investigators propose to validate and improve upon previous biosignatures by testing prior combinations and seeking novel combinations of markers in 900 pediatric inpatients aged 2 months to 5 years with clinical pneumonia in The Gambia. The investigators will also use alternative case criteria and seek diagnostic and prognostic combination of markers. This study will be conducted in Basse, rural Gambia, in two hospitals associated with the Medical Research Council Unity The Gambia (MRCG). Approximately 900 pediatric patients with clinical pneumonia aged 2 months to 5 years of age will be enrolled. Patients will undergo standard of care test and will have blood proteins measured through Luminex®-based immunoassays. Results of this study may ultimately support future development of an accurate point-of-care test for bacterial disease to guide clinicians in choices of treatment and to assist in the prioritization of intensive care in resource-limited settings.
This study assesses the effectiveness of targeted active case detection among high-risk populations in Southern Lao Peoples Democratic Republic (PDR). The investigators hypothesize that active case detection using the next generation of HRP-2 rapid diagnostic tests (RDTs) can help bridge gaps in identification of high-risk asymptomatic individuals with low density parasitemia, allowing for targeting of this reservoir and thereby reducing transmission. The investigators hypothesize that active case detection (testing and treating positive cases) with these RDTs will lead to a reduction in P. falciparum transmission.
The general objective of this study is to assess the therapeutic efficacy and safety of artesunate + amodiaquine combined with a single low dose of primaquine (0.25 mg/kg) for the treatment of uncomplicated P. falciparum malaria patients in Zanzibar. The specific objectives are: - To determine the clinical and parasitological efficacy of artesunate + amodiaquine and primaquine in the treatment of uncomplicated Plasmodium falciparum infection. - To differentiate recurrent infections during follow-up, i.e. recrudescence from new infections, by polymerase chain reaction (PCR). - To evaluate the incidence of adverse events, particularly with regards to potential hematological adverse events of primaquine. - To determine the polymorphism of molecular markers associated with artesunate + amodiaquine tolerance/resistance. - To formulate recommendations, which will enable the Zanzibar Ministry of Health to make informed decisions about whether the current national antimalarial treatment guidelines should be updated or not. - To determine efficacy rate of the first line treatment compared to the first efficacy trial thirteen years ago.
The primary objective of the study was to determine the PCR-APCR up to day 42 in children <60 months of age, weighing ≥5kg with uncomplicated malaria, treated with either artesunate+ amodiaquine (ASAQ) or artemether-lumefantrine (AL; Coartem®). Secondary objectives included: clinical and laboratory assessment of drug tolerability and safety, evaluation of possible correlation between drug bioavailability and clinical outcome, comparison of efficacy data with the pre-implementation "ACO I" study, parasite and fever clearance, gametocyte carriage, and possible selection of mutations related to quinoline resistance.
The primary objective of the study was to determine PCR corrected cure-rates up to day 42 in children with uncomplicated malaria, treated with either Artesunate + Amodiaquine or Coartem®. Secondary objectives were to determine safety and possible selection of mutations related to the resistance of the tested drugs.
This is a single-centre, open-label, study using induced blood stage malaria (IBSM) infection to characterize the activity of (+)-SJ000557733 or SJ733 for short, against early Plasmodium falciparum blood stage infection. The study will be conducted in two cohorts (n=8 per cohort). The anticipated efficacious dose range is expected to be within a range of 125 to 600 mg. The dose used in the first cohort was determined on the basis of the safety and PK data generated in the FIM study (NCT02661373) currently ongoing in United States (US) and will be 150 mg. Depending on the pharmacodynamics data (effect of SJ733 on parasitaemia) obtained from this first cohort, the dose in Cohort 2 may be adjusted but will not exceed 600 mg. Based on the PK from all three cohort from the FIM study, the median estimated dose to obtain the target SJ733 AUC of 13,000 (ug hr/L) is 370 mg. The dose of cohort 2 (≤600mg) is intended to provide further concentration-response information in the human challenge model. For Cohort 2 only, a second dose of SJ733 may be administered at peak gametocytaemia to assess if SJ733 can reduce gametocytes and subsequent infectivity to mosquitoes (a washout of ~15 days post initial SJ733 treatment will be observed). Depending on the data obtained from the first two cohorts, there may be a subsequent cohort, with the investigated dose of SJ733 to be determined by the Sponsor and Principal Investigator (PI) and endorsed by the Safety Review Team. Should this third dose be investigated, a substantial amendment including preliminary data from the first two cohorts will be submitted to the HREC for approval.