Plasmodium Vivax Efficacy Trial in Cruzeiro do Sul, Acre, Brazil

Malaria Clinical Trial

Official title: Efficacy of Chloroquine and Primaquine for the Treatment of Plasmodium Vivax Malaria in Cruzeiro do Sul, Acre, Brazil

Status Completed

Clinical Trial Summary

Background: The World Health Organization recommends that antimalarial treatment policies be evaluated every few years to check their efficacy. P. vivax malaria is the most common species in Brazil and cases are concentrated in the Amazon Region in Brazil.

Objectives: Assess the efficacy of chloroquine and primaquine for the treatment of P. vivax infections in Cruzeiro do Sul, Acre, Brazil.

Methods: An in vivo drug efficacy study will be conducted in Cruzeiro do Sul, Acre State, Brazil. At least 117 study participants ≥5 years of age with parasitologically confirmed P. vivax monoinfections will be treated under supervision with chloroquine (CQ) for three days at a daily dose of approximately 25 mg/Kg in accordance with the Brazilian National Malaria Control guidelines. For patients with normal glucose 6 phosphate dehydrogenase activity levels, investigators will add primaquine at dose of 0.5mg/Kg per day for 7 days. Clinical and parasitologic parameters will be monitored over a 28-day follow-up period to evaluate drug efficacy and for a total period of 168 days (6 months) to evaluate chances of recrudescence, relapse, or reinfection. Blood samples will be taken to measure the CQ levels in blood on Day 7 and day of failure, if occurring in the initial 28 days of follow up. In addition, a blood sample will be collected on filter paper on first day and on day of suspected failure to help differentiate parasite genotypes using techniques based on polymerase chain reaction. Results from this drug efficacy study will be used to assist the Brazilian Ministry of Health in assessing their national malaria treatment policy for P. vivax malaria.

Clinical Trial Description

Background The impact of malaria on the health and economic development of human populations is greatest in the tropics and subtropics. The World Health Organization (WHO) has estimated 216 million episodes of malaria in 2010, of which 174 million (81%) were in Africa. There were a total of 655,000 malaria deaths worldwide, approximately 86% of which in children under 5 years of age (WHO 2011). Although the majority of deaths occur among children in sub-Saharan Africa, malaria accounts for considerable morbidity in the Americas, particularly in the Amazon Basin.

Most countries in the Americas have adopted the WHO Global Strategy for Malaria Control, which relies on prompt and effective antimalarial treatment as the major means of reducing malaria morbidity and mortality (WHO 2008). The ultimate success of this strategy rests on the ability of ministries of health to provide antimalarial drugs with proven efficacy. Although a wide variety of methods have been used to assess resistance to antimalarial drugs in vivo methods, in vitro drug sensitivity testing, and molecular analyses, most national malaria control programs rely on data from in vivo efficacy trials to assess the efficacy of the current first- and second-line drugs and to decide if charges in malaria treatment policy are needed.

The most widely used approach to conduct in vivo drug efficacy trials in the Americas follows the guidelines of the WHO (WHO 2009) with the modifications recommended by the Pan American Health Organization for studies in the Americas (PAHO 2003). The goal of such studies is to assess antimalarial drugs currently being used for first-line treatment of uncomplicated malaria. Much of the effort to monitor antimalarial efficacy in the Americas has been done as part of the Amazon Network of Antimalarial Resistance Monitoring and the Amazon Malaria Initiative (PAHO 2012). This information is critical for guiding the development of rational antimalarial drug policies in endemic areas.

Chloroquine-resistant P. vivax was first reported from Papua New Guinea in 1989 in two Australian soldiers (Rieckmann, Davis et al. 1989). In 1995, a study in Irian Jaya, Indonesia showed resistance in at least 44% of the P. vivax patients treated with chloroquine (CQ) (Baird, Basri et al. 1995). Several investigators have reported cases of CQ-resistant P. vivax in South America. In 1996, in Guyana, Phillips et al. reported three patients in whom 25 mg/kg of CQ failed to eliminate parasitemia despite adequate therapeutic blood levels of CQ (Phillips, Keystone et al. 1996). Three years later, in the Brazilian Amazon region, Alecrim et al. reported a 12-year old girl with P. vivax malaria who continued to have parasitemia after receiving a supervised course of 25mg/kg of CQ (Alecrim, Alecrim et al. 1999). More recently, Soto et al. reported three cases of CQ-resistant P. vivax in Colombia (Soto, Toledo et al. 2001). In these last two studies, CQ blood levels were not measured and it is not possible to confirm that adequate therapeutic levels were achieved.

Because of the serious public health implications of CQ-resistant P. vivax in the Americas, it is critically important to limit reports to well-confirmed cases. In most cases, this will require measurement of CQ blood levels and genotyping of parasites from the initial infection and any suspected recrudescence. P. falciparum in vivo trials take advantage of well-established molecular markers that help differentiate cases of recrudescence and reinfection, by polymerase chain reaction (PCR) techniques. Although no universally accepted technique for this purpose exists for P. vivax, investigators plan to use the microsatellites, base pair repeats in the parasite genome, described by Imwong et al (Imwong, Sudimack et al. 2006). Investigators believe that having PCR-corrected analysis is especially important in the context of the long follow-up period, six months, investigators aim for this study.

Many malaria cases in the Americas are reported in Brazil (Silveira 2001; Oliveira-Ferreira, Lacerda et al. 2010). In 2011, 293,701 malaria cases were reported to the Brazilian National Reportable Disease Information System. Most of these cases (99.7%) occurred in the Amazon region, which encompasses the states of Acre, Amazonas, Amapa, Para, Maranhao, Mato Grosso, Roraima, Rondonia, and Tocantins. In this region, socio-economic and environmental conditions, such as presence of natural breeding sites and abundance of Anopheles mosquitoes, favor malaria transmission. Amazonas, Rondonia, Para, and Acre states were responsible for 85.5% of malaria cases in 2011 according to the Brazilian National Reportable Disease Information System. As in other regions of the world, malaria is seasonal in Brazil, cases increase during or after the rainy season (Costa 2009).

In 2011, 87,6% of malaria cases in Brazil were due to P. vivax alone, 11,3% to P. falciparum alone, and approximately 1.1% due to mixed infections with these two species. P. malariae is rarely seen in Brazil. Acre state saw a huge increase in malaria cases from 2003 to 2004 and from 2004 to 2005, 153% and 63%, respectively(Cesario and Cesario 2006). The Acre municipalities of Cruzeiro do Sul, Rodrigues Alves, and Mancio Lima municipalities were responsible for 67.7% of malaria cases in the state in 2006, when a malaria epidemic took place in this region. Table 1 shows the absolute number of malaria cases in Brazil and Acre state and their respective annual parasitologic index (API), which is the number of positive malaria slides per 1,000 residents per year.

Although currently there is no evidence of CQ-resistant P. vivax in Cruzeiro do Sul, Acre State, Brazil, the Ministry of Health would like to assess the efficacy of CQ and primaquine for the treatment of uncomplicated P. vivax malaria as part their effort to study antimalarial drug resistance within the country. This practice is in accordance with current WHO recommendations (WHO 2009).

Objectives

• To assess the therapeutic efficacy of CQ and primaquine for the treatment of P. vivax malaria in Cruzeiro do Sul, Acre State, Brazil.

• Estimate recrudescence and reinfection rates of P. vivax infection after parasite clearance with CQ and primaquine. ;

Related Conditions & MeSH terms

• Malaria

• NCT number: NCT02043652
• Study type: Interventional
• Source: Centers for Disease Control and Prevention
• Status: Completed
• Phase: N/A
• Start date: February 2014
• Completion date: December 2014