Mosquito-based method to reduce dengue could be highly cost-effective in Singapore

Mosquito-based method to reduce dengue could be highly cost-effective in Singapore

New research suggests that dengue—a viral infection spread by mosquitos—could be suppressed in Singapore in a highly cost-effective manner through the release of mosquitos infected with the bacterium Wolbachia. Stacy Soh of the National Environment Agency in Singapore and colleagues present these findings in the new open-access journal PLOS Global Public Health on October 13, 2021.

Singapore experiences periodic dengue outbreaks, including a 2020 outbreak that peaked at 1,792 weekly cases. Mosquitos infected with the natural bacterium Wolbachia are less likely to spread dengue, and evidence suggests that dengue can be suppressed by releasing Wolbachia-infected mosquitos into local mosquito populations. However, the overall cost-effectiveness of this strategy had not been studied.

To evaluate the potential cost-effectiveness of Wolbachia suppression in Singapore, Soh and colleagues first used economic and epidemiological data to calculate the impact of dengue in the country from 2010 through 2020. They estimated that, over that 10-year period, dengue cost Singapore between $1.014 to $2.265 billion in 2010 U.S. dollars, as well as 7,645 to 21,262 disability adjusted life years (DALYs)—total years of human life lost to illness, disability, or death.

Next, the researchers calculated the hypothetical cost of a Wolbachia program over the same 10-year period. They considered a strategy in which Wolbachia-infected males would have been released, as opposed to infected females, in hopes of suppressing existing mosquito populations. In this scenario, the researchers modeled a minimum of 40 percent efficacy, in line with results from real-world studies.

The researchers calculated that, under such a program, averting a single DALY would cost $100,907, for a total of $329.40 million saved overall. The authors note that future work could help refine these cost estimates. For instance, future research could address how a Wolbachia suppression program might unfold in the context of distribution of a newly developed dengue vaccine, or alongside other existing vector control efforts, such as eliminating mosquito breeding sites.

Regardless, the authors consider their estimates indicate that a Wolbachia program would be highly cost-effective and suggest that its rollout be prioritized in Singapore to suppress the spread of dengue.

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