Tracking Resistance to Artemisinin (TRAC)

Overview

Because the artemisinins are the most potent antimalarial drugs, the reduction in parasite numbers is rapid. Therefore, early measures of reducing parasite counts are needed. This study will look at conventional markers of parasite reduction e.g. parasite clearance time, parasite reduction ratio, and the time to achieve a fall of 50%, 90% and 99% of the pre-treatment parasitaemia. Defining artemisinin resistance requires the use of artesunate (AS) alone because it is now appreciated that the partner drug in a combination treatment has a significant impact on the rate of parasite clearance. This study will dose patients for 3 days with AS alone (or longer until parasites clear) and measure the parasite count frequently in order to be able to define an accurate regression line of a graph of the natural logarithm of the parasite count (Y axis) versus time (X axis). This will be followed by a full course of an artemisinin combination therapy (ACT). Two different dose regimens of artesunate will be compared at all sites except those in western Cambodia, as unpublished observations from the Thai-Myanmar border suggest the standard lower daily dose of 2mg/kg may enable the earlier detection of low level resistance than a 4mg/kg daily dose.

Background: Artemisinins are the cornerstone of current antimalarial treatment. Evidence of reduced susceptibility to artemisinins in Western Cambodia was first presented in January 2007 and confirmed in a subsequent detailed pharmacokinetic-pharmacodynamic study conducted by our group. Artemisinin resistance was manifest by a marked slowing of parasite clearance. The spread of highly artemisinin resistant falciparum malaria would have devastating consequences for malaria control and elimination. The response to artemisinin resistance in P. falciparum depends critically upon answering one pivotal question: how far has it spread? This research proposal focuses on filling critical gaps in knowledge that are essential to planning an effective response. Objectives/Hypothesis/Questions: This is a multi-centre study with the primary objective of comparing the P. falciparum parasite clearance compared to a reference parasite clearance rate obtained from historical data in artemisinin sensitive falciparum malaria. The aim of this large scale study is to determine if artemisinin resistance has spread and if so, how far it has spread. Research design: This is a multi-centre, open-label randomised trial to assess the clearance rates of peripheral blood P. falciparum parasitaemias in patients with acute uncomplicated falciparum malaria treated with two different doses of artesunate. The study will recruit patients with acute uncomplicated P. falciparum malaria. The total number of patients for this study is expected to be 1800. Patients will be randomised 1:1 to receive either: * AS2: Artesunate 2 mg/kg/day for 3 days OR * AS4: Artesunate 4 mg/kg/day for 3 days * followed by a full course of Artesunate- mefloquine (MAS3) Patients will be hospitalised for at least the 1st three days. During hospitalisation, patients will have malaria parasite count done at 0, 4, 6, 8, 12, then every 6 hours until parasite clearance. The weekly follow up is until day 14 (on Day 7 and Day 14). Value and significance of the research The study aims to address a simple but crucial question regarding artemisinin resistance for which currently there is no answer: has artemisinin resistant Plasmodium falciparum spread from Western Cambodia? The results will determine how to approach the subsequent efforts; strengthening of strategies for eliminating the resistant parasites in Western Cambodia if the resistance is confined to this area, or for containment and malaria control if the resistant parasites have already spread. Potential outcomes Within one year we expect to produce a map of the geographical extent, prevalence and severity of artemisinin resistance.