Scientists at Karolinska Institutet have uncovered a fascinating connection between breathing and vision that challenges previous understanding. Their research reveals that pupil size dynamically changes during breathing cycles, potentially impacting how we perceive visual information. This groundbreaking study introduces a fourth mechanism for pupil size variation, expanding our knowledge of human perception. The findings could have significant implications for understanding cognitive functions and potential clinical applications.
February 25, 2025
Breathing can be linked with vision: Study
"Our
vision may switch between optimising for distinguishing small details when we
inhale and detecting faint objects when we exhale" - Martin Schaefer,
Karolinska Institutet
Washington
DC, February 23: Researchers have discovered a fundamental mechanism that
affects pupil size: breathing. The study shows that the pupil is smallest
during inhalation and largest during exhalation, which could affect vision.
Key Points
1 Breathing creates fourth known mechanism affecting pupil size
2 Pupil smallest during inhalation and largest during exhalation
3 Study conducted with over 200 participants
4 Research suggests potential clinical applications
Researchers
at Karolinska Institutet in Sweden have discovered a fundamental mechanism. The
study was published in The Journal of Physiology.
Like the
aperture in a camera, the pupil controls how much light reaches the eye.
Therefore, it is fundamental to vision and how we perceive our surroundings.
Over a
century ago, three mechanisms that can change the size of the pupil were known:
the amount of light, focus distance, and cognitive factors such as emotion or
mental effort.
Now,
scientists have discovered a fourth: breathing. The pupil is smallest around
inhalation onset and largest during exhalation.
"This
mechanism is unique in that it is cyclical, ever-present and requires no
external stimulus," explains Artin Arshamian, associate professor at the Department
of Clinical Neuroscience, Karolinska Institutet, who led the research.
"Since
breathing affects brain activity and cognitive functions, the discovery may
contribute to a better understanding of how our vision and attention are
regulated."
The researchers
conducted five experiments with over 200 participants, examining how breathing
affects pupil size under different conditions. The results showed that the
effect persisted whether participants breathed quickly or slowly, through their
nose or mouth, if lighting conditions or fixation distance varied if they were
resting or performing visual tasks.
The
difference in pupil size between inhalation and exhalation was large enough to
theoretically affect vision.
The
researchers are now investigating whether changes in pupil size during
breathing also affect vision. Previous research shows that smaller pupils make
it easier to see details, while larger pupils help us find hard-to-see objects.
"Our
results suggest that our vision may switch between optimising for
distinguishing small details when we inhale and detecting faint objects when we
exhale, all within a single breathing cycle," says Martin Schaefer, a
postdoctoral researcher at the same department at Karolinska Institutet and the
study's first author.
There may
also be clinical applications, according to the researchers.
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