A study, which is published in PNAS, indicates that negative smells associated with unpleasantness or unease are processed earlier than positive smells and trigger a physical avoidance response.
From:
Karolinska Institutet [in Sweden]
October 14, 2021 -- The ability to
detect and react to the smell of a potential threat is a precondition of our
and other mammals' survival. Using a novel technique, researchers have been
able to study what happens in the brain when the central nervous system judges
a smell to represent danger.
"The human avoidance response to
unpleasant smells associated with danger has long been seen as a conscious
cognitive process, but our study shows for the first time that it's unconscious
and extremely rapid," says the study's first author Behzad Iravani,
researcher at the Department of Clinical Neuroscience, Karolinska Institutet.
The olfactory organ takes up about five
per cent of the human brain and enables us to distinguish between many million
different smells. A large proportion of these smells are associated with a
threat to our health and survival, such as that of chemicals and rotten food.
Odour signals reach the brain within 100 to 150 milliseconds after being
inhaled through the nose.
The survival of all living organisms
depends on their ability to avoid danger and seek rewards. In humans, the
olfactory sense seems particularly important for detecting and reacting to
potentially harmful stimuli.
It has long been a mystery just which
neural mechanisms are involved in the conversion of an unpleasant smell into
avoidance behaviour in humans. One reason for this is the lack of non-invasive
methods of measuring signals from the olfactory bulb, the first part of the
rhinencephalon (literally "nose brain") with direct (monosynaptic) connections
to the important central parts of the nervous system that helps us detect and
remember threatening and dangerous situations and substances.
Researchers at Karolinska Institutet
have now developed a method that for the first time has made it possible to
measure signals from the human olfactory bulb, which processes smells and in
turn can transmits signals to parts of the brain that control movement and
avoidance behaviour.
Their results are based on three
experiments in which participants were asked to rate their experience of six
different smells, some positive, some negative, while the electrophysiological
activity of the olfactory bulb when responding to each of the smells was
measured.
"It was clear that the bulb reacts
specifically and rapidly to negative smells and sends a direct signal to the
motor cortex within about 300 ms," says the study's last author Johan
Lundström, associate professor at the Department of Clinical Neuroscience,
Karolinska Institutet. "The signal causes the person to unconsciously lean
back and away from the source of the smell."
He continues:
"The results suggest that our sense
of smell is important to our ability to detect dangers in our vicinity, and
much of this ability is more unconscious than our response to danger mediated
by our senses of vision and hearing."
The study was financed by the Knut and
Alice Wallenberg Foundation, the National Institute on Deafness and Other
Communication Disorders and the Swedish Research Council. There are no reported
conflicts of interest.
https://www.sciencedaily.com/releases/2021/10/211014100139.htm
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