Mosquitoes
bugging you? There may be a new repellent on the horizon—and it's "so
much better than anything else we've ever seen," its inventor says.
A few years ago, Ulrich Bernier was busy blending various chemicals together in the lab, hoping to figure out why the blood-sucking insects
bite some people more than others. Mosquitoes home in on their targets
by sniffing out various chemicals and bacteria on human skin.
When
he created one blend with a group of chemicals that are very similar to
ones found in low concentrations in our bodies, Bernier noticed that
the bugs seemed to ignore it. (Read what happens inside you when a mosquito bites.)
These
chemicals—which include the tongue twisters homopiperazine and
1-methylhomopiperazine, among others—seemed to have an incredibly robust
ability to mask our scent from mosquitoes, said Bernier, a research
chemist at the United States Department of Agriculture's Agricultural
Research Service.
Next, Bernier and colleagues set up an
experiment where people put their arms or hands inside a cage full of
mosquitoes. The insects avoided the skin of the subjects when the
chemical cocktail was released from a container inside the cage.
Bernier and colleagues created a formula of several chemicals for a repellent, which was approved by the U.S. Patent and Trademark Office in 2012.
"It's
a pretty neat discovery because I don't think anyone else has shown
chemicals this capable of blocking skin odors that are normally
attractive to mosquitoes," said Bernier, who presented the research at
the American Chemical Society meeting in Indianapolis last week.
Why do we need a new repellent?
Insect-borne
diseases are prevalent and potentially dangerous. According to the U.S.
Centers for Disease Control and Prevention, there are about 30,000
annual reported cases of Lyme disease, which is transmitted by ticks,
and at least a thousand annual cases of mosquito-caused
encephalitis—which includes West Nile virus—in the country. Bernier and
colleagues' new repellent is also effective against other blood-sucking
insects.
The most common insect repellent now in use is DEET, which is designed to be sprayed on the skin. However, there has been some concern about DEET and potential toxicity, and there's high demand for equally effective alternatives. (See "Mutant Mosquitoes Not Repelled by DEET.")
How does it work?
Bug
repellents like DEET work by deterring mosquitoes that find the smell
unappealing; the new formula actually makes you invisible to the insect.
Here's
an analogy to explain the two: If you walk into a room and smell
something bad and leave, that's how DEET works. But with the new
repellent, it's as if you walk into a room and don't smell anything,
Bernier said.
Bernier said it's unknown why insects can't smell the compounds.
How is the repellent applied?
Commercial
availability is still far down the road—there needs to be more
toxicology tests on the formula, as well as field tests, Bernier
cautioned.
But he said that it could be used indoors or
outdoors and would probably work best released into the air rather than
applied to the skin. For example, the repellent could be emitted from a
sealed canister that releases a vapor slowly into the air, creating a
sort of protective bubble around your environment.
For instance, if you're sitting outside on a patio, you could install several canisters around the patio, he suggested.
Published September 17, 2013
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