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Key Points

Spatial repellents have been proven effective in preventing mosquito bites and reducing malaria transmission. The World Health Organization recently endorsed this new class of vector control products after decades without innovation. These paper-sized devices work without electricity and provide protection for up to a year. The technology offers hope for combating malaria that still kills nearly 600,000 people annually, primarily children in sub-Saharan Africa.

Key Points: WHO Recommends Spatial Repellents for Malaria Prevention After Study

  • Prevents over 50% of mosquito bites according to 25-year data analysis
  • Offers protection for up to one year without electricity or heating
  • WHO's first new vector control product recommendation in 40 years
  • Effective against malaria, dengue, Zika, and yellow fever mosquitoes
2 min read

WHO-recommended spatial repellants effective for tackling malaria: Study

New WHO-recommended spatial repellents prevent over 50% of mosquito bites and offer year-round protection against malaria, dengue, and Zika viruses.

"We finally have a new way to protect against mosquito bites, especially one that fills in some of the gaps of our existing methods - Ingrid Chen, UCSF"

New Delhi, Aug 27

Spatial repellents -- called a "spatial emanator" can prevent mosquito bites and offer significant protection against malaria, according to a study.

Researchers from the University of California-San Francisco, US, said that spatial repellents are a relatively new class of insecticide that can be disseminated on something the size of a sheet of paper, offering protection for up to a year against mosquitoes that spread malaria, as well as dengue, West Nile, yellow fever, and Zika.

In a systematic review, appearing in the journal eBioMedicine, the team analysed more than 25 years of data on some 1.7 million mosquitoes.

The findings showed that this “spatial emanator" distributes chemicals through the air and can prevent more than one out of every two mosquito bites.

The analysis comes just as the World Health Organization (WHO) recently recommended the use of spatial emanators, the first new vector control product class available in more than 40 years.

Spatial emanators can be used day and night, and do not require heating or electricity, making them easy to use in remote areas in Africa, South America, and Southeast Asia, where malaria is prevalent.

"We finally have a new way to protect against mosquito bites, especially one that fills in some of the gaps of our existing methods," said Ingrid Chen, Associate Professor of epidemiology and biostatistics at UCSF.

"It's lightweight, affordable, and easy to use, so it can be used to help save lives in all parts of the world," added Chen.

Malaria killed 597,000 people in 2023, the vast majority of whom were children under five years old in sub-Saharan Africa. Malaria has not been endemic to the U.S. since the 1950s, although locally transmitted cases occasionally occur in places like Florida and Texas.

Insecticide-treated nets generally only protect people indoors and at night; other topical repellents are expensive and need to be regularly reapplied. Insecticide-treated coils create smoke and last only a few hours.

But the new class of spatial repellent uses chemicals that are similar to those in treated bed nets -- which are considered safe -- but in a more volatile form.

The study noted that the tool also protects against all types of mosquitoes that carry disease, although with varying levels of efficacy.

- IANS

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Reader Comments

R
Rohit P
Finally some good innovation in vector control! The fact that it works day and night without electricity is perfect for Indian villages where power supply is unreliable. Hope ICMR tests this soon for Indian conditions.
M
Michael C
As someone who travels to malaria-prone areas for work, this sounds like a game-changer. Current repellents need constant reapplication and nets only work indoors. A year-long protection sheet would be incredible!
A
Ananya R
While this sounds promising, I hope they conduct proper trials in Indian environments. What works in Africa might need adaptation for our climate and mosquito species. Still, exciting development! 🌟
V
Vikram M
The cost factor will be crucial. If it's truly affordable, this could revolutionize public health in states like Odisha, Chhattisgarh, and the Northeast where malaria is still a major problem.
S
Sarah B
I appreciate that it protects against multiple diseases - malaria, dengue, Zika. In cities like Delhi and Mumbai, dengue is becoming a bigger threat each year. This could be a comprehensive solution.
K
Karthik V
While the technology sounds impressive, I hope they address environmental concerns. We don't want another solution that creates chemical pollution. Sustainable innovation is what we need.

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