A new study demonstrates how the external representation of physiological signals (interoception) can affect our perception of them and balance the body in stressful situations.
The study conducted at Reichman University’s Baruch Ivcher Institute for Brain, Cognition, and Technology and led by Prof. Amir Amedi, was recently published in the prestigious journal Nature Portfolios Scientific Reports.
The researchers focused on breathing for this study, and created an audiovisual representation of the user’s breathing pattern in the form of a spherical object that appears on three screens surrounding the user.
The movement of the object mirrors the user’s breath, expanding in synchrony with each inhale and contracting upon exhalation, creating a sensory connection through the use of many layers that respond to pauses in breath.
The user is also surrounded by a spatial audio system that produces ambient sounds, while an additional sound from the core of the spherical object mimics the rise and fall of ocean waves, both of which also respond to the user’s breath.
This sensory experience was designed in collaboration with video art creator and director Yoav Cohen.
The research team used a variety of tests to assess mind wandering, interoceptive sensibility, and flow, and found that the experience led to a significant improvement in interoceptive sensibility and flow among the users, with a strong correlation between the two results.
Founder and Director of the Baruch Ivcher Institute for Brain, Cognition, and Technology at Reichman University, Prof. Amir Amedi said: “These findings tell us that there is quite a strong bidirectional relationship between the external representation of our respiratory signals and our awareness of our internal bodily signals.
“The external stimuli help redirect the user’s attention back to their internal sensations, improving bodily awareness.”
The findings support the idea that sensory substitution can be used to integrate internal and external attention systems, and harnessed to improve mental health.
“They also highlight the relationship between the brain and body, which – using breath as an example – is intertwined with the function of our immune system via the sympathetic and parasympathetic branches of the nervous system.”
Amedi explains: “The user’s respiratory signals are translated into dynamic visual and auditory stimuli in real-time. This creates a totally immersive multi-sensory environment, which takes internal bodily signals and externalises them to enhance your awareness of these internal processes.”
“The experience also includes elements that encourage a more desirable breath pattern. For example, a light from the centre of the sphere grows when the user exhales, encouraging longer exhalations which are known to have a relaxing effect.”
“Together, the auditory and visual cues create an experience that engulfs and immerses the user. This level of engagement enhances the user’s awareness of internal bodily sensations through external signals.”
“What we’re doing is trying to improve interoception,” explains Oran Goral, co-first author of the paper.
“Interoception, your ability to perceive and interpret your own internal bodily signals and sensations, is often impaired in numerous psychological disorders and even neurodegenerative diseases (diseases that damage the brain’s neurons such as Alzheimer’s and Parkinson’s).”
“Improving interoception is associated with improvements in mental health, emotional regulation, and overall wellbeing.”
SOURCE: Neuroscience News