View clinical trials related to Malaria, Vivax.
Filter by:The goal of this study is to evaluate the operational feasibility of using a new treatment algorithm for Malaria Vivax in Peru. The implementation package includes the following interventions: - A revised vivax treatment algorithm that incorporates new Radical Cure tools (G6PD test + Tafenoquine or Primaquine) - The training of Health Care Providers ( HCPs) in the revised algorithm and the use of the new RC tools - Patient counselling - A follow-up visit at Day 3 [+2 days] for patients after treatment start - Accompanying supporting measures: job aids, strengthening of supervision and PV processes
This is an open-label, single-centre, non-randomised, first-in-human Phase Ia study to assess the safety and immunogenicity of the Pvs25-IMX313 vaccine, administered in Matrix-M1 adjuvant.
Primaquine (PQ) is the only widely available treatment to prevent P. vivax relapses. World Health Organization recommends increased PQ doses in East Asia and Oceania, frequently relapsing strains. In 2005, the Centers for Diseases Control and Prevention began also recommending higher dose PQ to treat infections from all parts of the world. In Latin America, PQ for a radical cure has been largely implemented as 3.5 mg/kg over 14 days (standard dose, long-course, PQsd14) or 3.5 mg/kg over 7 days (short-course, or PQsd7) in combination with chloroquine (CQ). A recent randomized controlled trial in Brazil showed that a 7 mg/kg double dose regimen over 14 days (PQdd14) was superior in preventing relapses compared to the standard of care regimen in Brazil of 3.5 mg/kg over 7 PQsd7 Direct Observed Therapy (DOT) and PQsd7 without DOT and with or 14 days PQsd14 with DOT (92% versus 66% were relapse-free in the 6-month follow-up in adjusted analyses). These data were presented at the 2019 PAHO Malaria Technical Advisory Group (TAG) meeting. To inform whether there should be a policy change by Panamerican Health Organization, the Malaria TAG recommended more evidence from the results of another trial to confirm the efficacy of high versus low-dose PQ. This project aims to generate the necessary evidence to inform a policy decision regarding high-dose PQ. Impact Malaria (IM) proposes to conduct another trial, per the PAHO Malaria TAG's recommendation, assessing the efficacy of high-dose PQ compared to low-dose PQ. The objective is to compare a standard regimen, which in Colombia is PQsd14 (3,5mg/kg divided in 14 days), to a double dose alternative PQ 7 mg/kg double dose regimen over 14 days (PQdd14).
This is an observational study carried out in Brazil in patients with P. vivax malaria. The study will be carried out in the municipalities of Manaus (state of Amazonas) and Porto Velho (state of Rondônia). G6PD and TQ tests will be provided to health facilities by municipal health authorities using the common route for the provision of drugs and diagnostics. PQ and other antimalarial drugs are already available in Brazil. Designated personnel at the health facilities will be trained to perform the G6PD quantitative test procedure and the radical healing treatment algorithm by the Lead Researcher (RP) team and municipal authorities using teaching materials developed by the sponsors. The study design is based on the secondary use of data routinely collected from all malaria patients in the Epidemiological Surveillance Information System for Malaria (SIVEP-Malaria) by the Ministry of Health (MS). Data from all malaria patients are routinely collected through SIVEP forms by health professionals (HP) and entered into the SIVEP database by the municipality staff. The SIVEP form will be adapted by the MS to collect information about the G6PD test, TQ treatment and signs of hemolysis. The retrospective data from all patients will be entered into a new database by the municipality staff during the study period and the relevant data will be automatically exported weekly to the SIVEP database. The study team will only have access to unidentified data, according to the access levels that will be assigned to each member in the system. Only the municipality's team will have access to the identified patient data. In addition to the data collected on the SIVEP forms, the PR team will ask the two referral hospitals that routinely receive all admissions due to AHA to perform a regular screening of electronic hospital admission records for patients with signs of AHA (renal failure, jaundice, blood transfusion, malaria). All identified cases will be investigated using hospital records and SIVEP forms. Confirmed information about drug-induced AHA will be linked to the patient record recorded in the database. The PR team will also contribute to pharmacovigilance training. Physicians at tertiary-level health units will report side effects through the VigiMed system, from the National Health Surveillance Agency (ANVISA).Finally, the additional costs of implementing the G6PD and TQ tests will be collected along with the study at the health facilities. Since the study is based on retrospective data collection, and the adoption of TQ and G6PD testing will be done by the municipality, the G6PD testing and the treatment of patients with TQ or PQ will be carried out in accordance with the treatment policy , that is, regardless of the study. The study will be carried out in phases: - 1st phase (approximately 3 months): Training and provision of G6PD and TQ tests will initially be limited to 10 high-complexity and intermediate-complexity units (referral hospitals, hospitals, emergency care units, polyclinics). Data will be collected from patients with P. vivax treated at these health facilities. An interim analysis will be performed after collecting data from 600 patients with P. vivax ≥ 16 years, who have not been treated for vivax malaria in the past 60 days, in the study database in order to decide whether the study can be extended to less complex health units. The decision will be made by an Independent Study Oversight Committee (ISOC). If the interim results of Phase 1 are found to be unsatisfactory, ISOC may decide not to extend the study to primary care units until improvements in the educational program are implemented and/or additional support is provided to health professionals. Additional interim analyzes will be performed as appropriate. - 2nd phase (approximately 9 months) [CURRENT PHASE]: if approved by ISOC, the study will be extended to less complex health units (basic health units, family health units and other primary care services) and other high and medium complexity of health in the selected municipalities. After staff training, G6PD and TQ testing will be provided to these health facilities by municipal health authorities. During this 2nd phase, data will continue to be collected from patients with P. vivax treated by the 1st phase tertiary care units. - An additional interim analysis will be performed after data from 600 patients with P. vivax ≥16 years old, who have not been treated for P. vivax malaria in the past 60 days, from primary care units are collected in the study database ( approximately 3 months after the start of the 2nd phase). The study will continue while the interim analyzes are being carried out. Final results will be analyzed and validated by ISOC. The study is expected to take approximately 15 months.
Although Plasmodium vivax (P. vivax), one of the five malaria species causing parasites, has the widest geographical distribution, it is rare in sub-Saharan Africa due to the absence of a red blood cell receptor (Duffy antigen) in black Africans. Duffy-negative individuals are, for the most part, therefore refractory to P. vivax infection and the Duffy-negative phenotype is found at highest frequencies in Africa, whereas it is relatively rare elsewhere. P. vivax has however, been observed as single infections in up to 5% of Duffy-negative febrile patients in one health facility in Dschang, a region of low malaria transmission in Western highlands of Cameroon. Whereas in the littoral South West and Southern forest of Cameroon characterised by high malaria transmission, areas, there are contrasting molecular evidence of human P. vivax infection. While important, the significance is limited from an epidemiological point of view, concerning the source, transmission, distribution range of P. vivax. There is thus a challenge in the true estimation of malaria burden, as well as the attributable parasite species in infections occurring in the low transmission areas of Western Cameroon. As a consequence, our understanding of the local epidemiology of malaria in Western Cameroon warrants formal investigation. The current proposal is a multi-centre observational study. Its purpose is to characterise the malaria species composition and particularly exposure and burden of P. vivax across malaria endemic settings in Cameroon. It will use multiplex serological methods based on quantitative suspension array on finger-stick blood samples collected from febrile patients of ages 1-100 during two malaria transmission seasons in different eco-climatic regions in Cameroon.
This study assesses the effectiveness of reactive focal mass drug administration (rfMDA), targeting both village and forest working populations, compared to control for reducing the health promotion hospital-level (sub-district) incidence and prevalence of P. falciparum and P. vivax within five provinces in Thailand.
The main determinant of primaquine efficacy is the total dose of primaquine administered, rather than the dosing schedule. Infants and children younger than 4 years of age are at a higher risk of frequent relapses than older age groups, which may lead to severe anaemia. In view of this issue, after Glucose-6-phosphate dehydrogenase (G6PD) testing, WHO recommends the use of a low dose (0·25 mg/kg of bodyweight) of primaquine for 14 days in infants aged 6 months and older, as a follow-up treatment for malaria caused by P. vivax and P. ovale. Nevertheless, previous trials have demonstrated that the standard low dose regimen of primaquine (3.5 mg/kg total) fails to prevent relapses in many different endemic locations. For this reason, the 2010 WHO antimalarial guidelines now recommend a high dose regimen of 7 mg/kg (equivalent to an adult dose of 30mg per day), although many countries still recommend lower doses for fear of causing more serious harm to unscreened G6PD deficiency patients. The pharmacokinetics of several antimalarial drugs are different in children younger than 10 years of age or who are underweight for their age compared with children of 10 years and older and adults.The doses of several antimalarials in children are suboptimal. This oversight is a consequence of designing dosing regimens in a different population (i.e., adults) for the one most affected by the disease and this has led to revisions of some dosing recommendations. The different pharmacokinetic performance of drugs in children might also relate to maturation (e.g., of metabolic processes, particularly in the first 2 years of life). Pharmacogenomic factors affecting drug metabolism are increasingly being studied. Polymorphisms in cytochrome P4502D6 are associated with different primaquine metabolizer phenotypes with resulting differing efficacies for radical cure. Shorter courses of higher daily doses of primaquine have the potential to improve adherence and, thus, effectiveness without compromising efficacy. If the efficacy, tolerability and safety of short-course, high-dose primaquine regimens can be assured across the range of endemic settings, along with reliable point-of-care G6PD deficiency diagnostics, then this would be a major advance in malaria treatment by improving adherence and thus the effectiveness of anti-relapse therapy.
This is a randomized, double-blind, controlled, which seeks to compare two groups of volunteers (naive and previously exposed to malaria) vaccinated with three doses of a synthetic derivative of the CS protein of Plasmodium vivax to determine their protective efficacy. Then volunteers will be subject to an infectious challenge (Controlled Human Malaria Infection) to assess the infectivity of gametocytes in the blood early stage of P. vivax in Anopheles albimanus mosquitoes.
This Phase 2a trial recruits adult patients with uncomplicated P. vivax or P. falciparum blood-stage malaria mono-infection. The study drug SJ733 will be administered to examine its antimalarial efficacy, safety, and tolerability. This study also evaluates whether or not a fixed dose of the pharmacoenhancer cobicistat when given in combination with SJ733 significantly improves drug efficacy.
The study will be an open-labelled randomized clinical trial to determine therapeutic efficacy. Note that this will not be an Investigational New Drug application, as only World Health Organization (WHO)-approved drugs will be used at dosage and for conditions approved.