By: Yao-Hua Law
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[KUALA LUMPUR] Asia’s burgeoning airline network is helping spread the dengue virus (DENV) across the continent, says a new study.
Published this month (August) in PLoS Neglected Tropical Diseases, the study found that air traffic volumes and connections explain DENV migration across Asia better than socio-economic and environmental factors like GDP and conducive temperatures. Central air hubs such as those in China, India, Singapore and Thailand contribute more to the diffusion of dengue compared to less busy routes.
“Future trends in global mobility could potentially accelerate the appearance and diffusion of DENV worldwide.”
Huaiyu Tian
The findings suggest that “future trends in global mobility could potentially accelerate the appearance and diffusion of DENV worldwide,” lead author of the study, Huaiyu Tian of Beijing Normal University, tells SciDev.Net.
Dengue is a mosquito-borne viral disease that causes flu-like illness, and in some cases, develops into serious complications which can be fatal. About 2.5 billion people live within range of the virus and its vector, the Aedes mosquito. Up to 390 million dengue infections are reported every year, almost entirely in the tropics and subtropics.
As the human body naturally removes DENV within a week of infection, air travel disperses it better than slower modes of travel such as sea and land. A dengue outbreak in Japan in 2014 — the first in 70 years — alerted Tian’s team to the potential role of air travel in moving the virus. The scientists discovered that busy flight routes connect locations in Japan and China that shared genetically similar DENVs.
Exploring further, Tian’s team combed a public gene database (GenBank) for genetic sequences of envelope genes of dengue viruses collected between 1956 and 2015. The scientists studied DENV virus serotypes 1—3 but excluded serotype 4 due to insufficient samples. Almost 900 genetic sequences of DENV were obtained from 20 Asian countries.
The team then built a phylogeny tree that describes the genetic relationships among the 900 sequences. When they added the location of each gene sequence to this tree, the scientists could infer the most likely movement of DENVs across Asia since 1956.
Tian hopes the new model of airline transport and virus spread could inform future deployment of dengue vaccines.
This piece was produced by SciDev.Net’s Asia & Pacific desk.