MULTIDRUG-RESISTANT MALARIA SPREAD UNDER THE RADAR FOR YEARS IN CAMBODI

Wellcome Sanger Institute Media Team-Feb 8

The most comprehensive genetic study of malaria parasites in Southeast Asia has shown that resistance to antimalarial drugs was under-reported for years in Cambodia. Researchers from the Wellcome Sanger Institute and their collaborators have shown that the parasites developed multidrug resistance to first-line treatments extremely rapidly. They found that one main resistant strain had spread aggressively in the five years before clinical resistance was reported. Delays in detecting the spread of resistance could threaten global efforts to eliminate malaria.

Reported in The Lancet Infectious Diseases, the study suggests that ongoing genomic surveillance is vital to monitor the spread of resistance, to inform public health malaria control strategies.

Malaria is caused by Plasmodium parasites and the World Health Organisation estimated that more than 200 million people were infected and nearly half a million people died worldwide from the disease in 2016. Children under the age of five are most at risk. Malaria is a treatable disease when caught early enough, but is a huge problem in many areas due to drug resistance.

The first-line treatment for malaria in many areas of the world is a combination of two powerful antimalarial drugs – dihydroartemisinin and piperaquine – otherwise known as DHA-PPQ treatment.

Introduced into Cambodia in 2008, this treatment was initially effective, but in 2013, clinical trials showed that the malaria parasites were resistant to both drugs. Subsequent studies have reported that resistance has since spread to Thailand, Laos and Vietnam.

To help understand future consequences and risks, an accurate picture of the initial emergence and spread of the malaria resistance was needed. Researchers analysed DNA sequence data from nearly 1500 Plasmodium falciparum parasites from Southeast Asia, including more than 450 collected in Cambodia between 2007 and 2013. This allowed them to look back in time to see how the malaria parasites treated with DHA-PPQ evolved resistance.

The genetic study revealed that in the very same year that DHA-PPQ became the official first-line antimalarial treatment in Cambodia, a single multidrug resistant strain of Plasmodium parasite emerged. The researchers found this strain then spread aggressively, outcompeting all the other resistant malaria parasites and leading to complete failure of treatment in Cambodia. Other drugs may be effective at the moment but the situation is extremely fragile.

These findings have significant implications for management of the global health risk associated with the current malaria outbreak.