Study finds way to track malaria parasite evolution
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Study finds way to track malaria parasite evolution

www.reuters.com   | 14.06.2012.

LONDON (Reuters) - An international research team says it has found a way to identify hotspots of malaria parasite evolution and track the rise of resistance to malaria drugs faster and more efficiently than before.
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The success of the technique, which involves analyzing the genetic maps of malaria parasites straight from patients' blood samples, suggests scientists should be able to track changes in the parasite population and follow the disease's evolution.

Malaria infects more than 200 million people worldwide every year and kills around 600,000 of them - primarily children under age five in sub-Saharan Africa.

Most severe forms of malaria are caused by the parasite plasmodium falciparum, which is spread by mosquitoes.

Experts say one of the most challenging features of this parasite is its ability to evolve and overcome anti-malarial drugs - a factor which is undermining global work towards eradicating the killer disease.

"If we want to control resistance, we first need to be able to monitor the genetic diversity of P. falciparum and identify hotspots of potential resistance as they occur," said Dominic Kwiatkowski, of Britain's Wellcome Trust Sanger Institute and Oxford University, who led the research team.

"Rapid sequencing of parasite genomes from the blood of infected people is a powerful way of detecting changes in the parasite population and potentially an important new surveillance tool ... for controlling malaria."

Kwiatkowski's team developed a new technique to extract the parasite's DNA directly from blood removing as much human DNA from the sample as possible.

The new method means there is no need to grow the parasite in a blood culture in a laboratory dish before deciphering its genetic code, speeding up the process and minimizing the potential for mistakes, the researchers explained in a report of the study published in the journal Nature on Wednesday.

The team used the technique to analyze samples from Burkina Faso, Cambodia, Kenya, Mali, Papua New Guinea and Thailand.

They found that one infected person could harbor several genetically different malaria parasites, which allowed the parasite populations to swap DNA and create new forms.

This showed how the pace of parasite evolution is drastically affected by human factors as well as geography, the researchers said.

"The emergence and spread of anti-malarial drug resistance is a major threat to current global initiatives to control and eliminate malaria," said Nick White of Oxford University and Mahidol University in Thailand, who also worked on the study.

He said new insights like those revealed by this study are essential if scientists are to be able to identify, map, and then contain spreading resistance.

"We can now build on this technique to identify hotspots of anti-malarial drug resistance around the world and contain them effectively," he said.

(Reporting by Kate Kelland; Editing by Sophie Hares)



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