View clinical trials related to Malaria, Vivax.
Filter by:In Thailand, the proportion of P.vivax infection has now been increasing and is equal to Plasmodium falciparum since 1998. The incidence of P.vivax has recently been reported as 20 per 1000 population per year. Unlike Plasmodium falciparum, P.vivax infection rarely develops into complicated malaria and death is unusual. However, P.vivax has a dormant stage (the hypnozoite) that persists in the human liver and may cause relapse weeks, months, or even years later. Therefore, P.vivax infection is considered to have greater impact on morbidity than mortality, resulting in significant social and economic burden. Moreover, it is very difficult to control P.vivax transmission, because gametocytes appear almost simultaneously with schizonts. Radical treatment of the infection, therefore, normally consists of a blood schizontocidal course of chloroquine and a course primaquine for the elimination of the hypnozoites as anti-relapse therapy. In Thailand, chloroquine and primaquine have remained the mainstay chemotherapeutics for the treatment of P.vivax for more than 60 years and resistance has not yet been reported . The relapse rates at day 28 are about 50% without primaquine therapy and about 20% with standard primaquine therapy. Relapse has not been observed among patients receiving high dose primaquine therapy (30 mg daily for 14 days). Since January 2007, the evidence of reduced susceptibility of Plasmodium falciparum to artemisinins in Western Cambodia at Thai-Cambodia border was first presented and confirmed in a subsequent detailed pharmacokinetic-pharmacodynamic study. Nevertheless, a trend of gradual decline of in vitro sensitivity to chloroquine has been documented in some areas of the country, particularly Thai-Myanmar border. There has been no clinical-parasitological evidence of chloroquine resistant P.vivax in Thai-Cambodia border, Thailand. The objectives of the present study are to assess in vivo efficacy of first line regimen of chloroquine given with primaquine, and in vitro susceptibility of P.vivax isolates in areas along Thai-Cambodia border, Thailand.
In Southeast Asia, Plasmodium vivax (Pv) infection reaches 50-80% and bears a greater burden of disease than Plasmodium falciparum (Pf). As control over Pf improves, Pv will assume increasingly larger percentages of malaria prevalence. The chronicity of Pv, due to the latent liver stage (hypnozoite) not eradicated by chloroquine, causes recurring disability and compounds the economic burden of those with symptomatic disease. The only widely available treatment for hypnozoites is primaquine, which, because of challenges with tolerability, safety in G6PD deficient persons, and compliance, is not commonly prescribed for the treatment of Pv. Currently, chloroquine is used for the treatment of the blood stages of Pv, however, there are concerns about increasing parasite resistance. Alternative treatments, such as artesunate, should be considered in the future of the treatment of blood stage Pv. The use of primaquine in the treatment of hypnozoites (radical cure) should be emphasized so that transmission of Pv can be controlled. This study aims to determine the optimal primaquine regimen for radical cure of Plasmodium vivax. Chloroquine is currently the standard of treatment for Plasmodium vivax. Chloroquine may have synergistic effects when used with primaquine and due to its long half-life may delay the first relapse of vivax malaria. In contrast, artesunate does not have documented interactions with primaquine and has a very short half-life, thus, presumably will have no impact on first relapse. Combining primaquine with these two anti-malarials may lead to an alternative regimen for Pv infection and changing the primaquine dosing regimen may lead to a more practical and efficacious therapy.
The cure rate of artemether/lumefantrine in the treatment of vivax malaria.
For the treatment of P.vivax the standard treatment is chloroquine. There is a growing body of evidence suggesting that pregnant women may require different doses of drugs, including antimalarials due to the physiological changes of pregnancy. It is important that any drug used in pregnant women it is given at the correct dose. The only way to evaluate this is by pharmacokinetic studies. The investigators propose to evaluate the pharmacokinetics of chloroquine when use to treat P.vivax in the 2nd or 3rd trimester of pregnancy. The same evaluation in the same woman post-partum is required as a control.
This study will assess efficacy, safety , tolerability and PK in uncomplicated adult malaria patients with P. vivax or P. falciparum infection after 3 day dosing with KAE609 at 30 mg/day
The purpose of this two part study is to test the safety and efficacy of Tafenoquine (with Cholorquine) as a radical cure for Plasmodium vivax (P.vivax) malaria relative to the control Chloroquine.Part 1 aims to select an efficacious and well tolerated dose that can be co-administered with Chloroquine. Part 2 will investigate the safety and efficacy of the selected dose (300 mg tafenoquine) in the treatment and radical cure of Plasmodium Vivax Malaria.
This randomized clinical trial will be conducted in subjects with uncomplicated Plasmodium vivax malaria during November 2010 to March 2012. The aim of the study is to compare the efficacy and safety of artesunate-amodiaquine plus primaquine (AS-AQ + PQ) and dihydroartemisinin-piperaquine plus primaquine (DHP + PQ) in uncomplicated vivax malaria. The significance of the study is to find alternative drug for treating patients with vivax malaria in case the standard treatment is not available or become resistance. This study will give thorough information about the efficacy and safety of 2 artemisinin-based combination therapies (ACTs) in combination with primaquine. It will also inform the Indonesian Ministry of Health on their suggested policies for radical cure of vivax malaria, and provides evidence based treatment options for chloroquine resistant vivax malaria. This study will also provide information about prevalence of glucose-6-phosphate dehydrogenase (G6PD) deficiency and G6PD variants in North Sumatera population.
This is a standard pharmacokinetic interaction study. Subjects will be randomized to be either group A or B. Group A. Subjects will have 3 hospitalizations to complete. Each hospitalization will be about 12-24 hours depends on each regimen. Subjects in A group who receive regimen 1 of primaquine (PQ) on the first admission (visit 2) will receive regimen 2 of primaquine and chloroquine combination (PQ and CQ) on second admission (visit 3) after 1 week wash out period and will finish with regimen 3 of Chloroquine (CQ) on the third admission (visit 4) after 8 weeks wash out period. Subjects in B group who receive regimen 1 of primaquine (PQ) will receive regimen 2 of chloroquine (CQ) on second admission (visit 3) after 1 week wash out period and regimen 3 of primaquine and chloroquine combination (PQ and CQ)on third admission(visit 4) with 8 week wash out period in between.
A Phase IIa Exploratory, Open label, Single Dose Regimen, Multiple Dose Testing Clinical Study to Assess the Preliminary Efficacy, Tolerability and Pharmacokinetics of OZ439 in adult patients with acute, uncomplicated Plasmodium falciparum or vivax malaria mono-infection.
This is an open label two-arm randomized prospective study of two treatments for P. vivax malaria. Patients meeting study inclusion criteria will be enrolled and allocated either chloroquine alone or chloroquine plus primaquine (0.25mg/kg/day for 14 days). Patients will be followed-up for 1 year, with clinical and laboratory examinations at each visit. Patients with recurrent P. vivax infection will be treated with the same medication as initially randomized unless contraindicated. Recurrences in the two arms will be compared to estimate the risk of and mean duration to relapse, classify the relapse pattern as early or late relapse and to estimate the efficacy and safety of the study drugs. Polymerase Chain Reaction (PCR) analysis will be used as far as possible help to distinguish between relapse and re-infection. Samples for chloroquine pharmacokinetic analysis will be collected on day 7 from each study subject as well as on the day of recurrence if within 8 weeks of chloroquine