Scientists shed new light on how we perceive vibrations through touch

August 06, 2019

Researchers have demonstrated a universal decoding system in humans that determines how we perceive vibrations of different frequencies through touch.

Their findings, published in eLife, suggest that this decoding system overrules our tactile sensory channels when we perceive vibrotactile stimuli. The system depends on neural discharge (or spike) patterns, regardless of the type of receptor that receives the stimuli, challenging well-established ideas of how we process these sensations.

The different skin regions on our bodies, such as on our heads, lips and fingertips, differ in their types of touch receptors. In the fingertip alone, there are four different ways of sensing touch: one receptor is more sensitive to pressure, another to stretch and two others respond to slow or fast vibrations. The touch receptor known as the Pacinian corpuscle is incredibly sensitive, and it is well-known that such sensors allow us to feel fast skin vibrations.

Now, the research team from Neuroscience Research Australia (NeuRA) in Sydney, has found a way to trick these receptors to respond to the slow vibrations that are mainly signalled by a different receptor type.

"The currently established view is that feeling a vibration through touch evokes two different sensations, subserved by two distinct receptor types, Meissner's and Pacinian corpuscle, which may engage different neural processing channels and play different biological roles," says first author Ingvars Birznieks, Associate Professor at the University of New South Wales (UNSW) Sydney and Senior Research Fellow at NeuRA. "These two systems have been labelled as Pacinian and non-Pacinian channels. Our study now challenges the idea of how these channels work within the tactile sensory system."

Birznieks and his team recruited healthy volunteers aged 20 to 26-years-old and without any known history of neurological disorders which would affect their somatosensory system. Using brief low-frequency vibratory stimuli to selectively activate the Pacinian channels in the participants, the scientists confirmed that only Pacinian receptors were responding to the tiny tapping movements on the skin. The team could then test what the human brain understands from signals coming through a different sensory channel than the normal route.

"To our surprise, we found that the brain didn't seem to care which channel and receptor this information came from - it was all processed in the same way," explains senior author Richard Vickery, also Associate Professor at UNSW Sydney. "As the receptor type appeared not to matter, it meant that the different skin regions with their different receptors can all cause the same brain sensations. This suggests a universal frequency decoding system, possibly explaining why we feel vibrations in the same way across the whole body."

Vickery adds that the findings indicate the need to review the foundations on which processing of vibrotactile stimuli is attributed to Pacinian and non-Pacinian channels.

"In the longer term, continuously improving our understanding of how such neural signal processing works in the brain could help in the development of more effective bionic limbs that enable real-time touch sensation," he concludes.
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Reference

The paper 'Tactile sensory channels over-ruled by frequency decoding system that utilizes spike pattern regardless of receptor type' can be freely accessed online at https://doi.org/10.7554/eLife.46510. Contents, including text, figures and data, are free to reuse under a CC BY 4.0 license.

Media contact

Emily Packer, Senior Press Officer
eLife
e.packer@elifesciences.org
01223 855373

About eLife

eLife is a non-profit organisation inspired by research funders and led by scientists. Our mission is to help scientists accelerate discovery by operating a platform for research communication that encourages and recognises the most responsible behaviours in science. We publish important research in all areas of the life and biomedical sciences, including Neuroscience, which is selected and evaluated by working scientists and made freely available online without delay. eLife also invests in innovation through open-source tool development to accelerate research communication and discovery. Our work is guided by the communities we serve. eLife is supported by the Howard Hughes Medical Institute, the Max Planck Society, the Wellcome Trust and the Knut and Alice Wallenberg Foundation. Learn more at https://elifesciences.org/about.

To read the latest Neuroscience research published in eLife, visit https://elifesciences.org/subjects/neuroscience.

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