Power of Illusion Helps to Learn New Movements

The Human Brain

Author: Tokyo Metropolitan University
Published: 2023/12/23
Publication Type: Research Study Analysis - Peer-Reviewed: Yes
Contents: Summary - Introduction - Main - Related

Synopsis: Visual aids creating illusion of movement can improve motor performance and early stages of motor learning. A team of scientists led by Assistant Professor Katsuya Sakai from Tokyo Metropolitan University have shown that VMI can improve motor performance and early-stage motor learning.

Introduction

"Differences in the Early Stages of Motor Learning Between Visual‑motor Illusion and Action Observation" - Scientific Reports.

Researchers from Tokyo Metropolitan University showed that visual aids which create the illusion of movement, like a screen placed in front of one's hand showing the hand move, can improve motor performance and the early stages of motor learning. Compared to observing third-person motions, functional near-infrared spectroscopy data also showed greater changes in brain activity in regions associated with motor learning. Findings like this might inform new treatment strategies for hemiplegic stroke patients.

Main Digest

Visual-motor illusion (VMI) is the curious illusion of watching your body move even while it is still.

Imagine having a tablet screen placed in front of your hand. Your hand is hidden behind the tablet, and your hand is not moving. Now, imagine the screen playing a video of your hand moving; your eyes are telling you that your hand is moving, but it is not moving at all. This unsettling situation is instantly resolved if you put the screen somewhere else; watching the screen now simply entails action observation (AO). Previous work has already shown that VMI and AO entail different responses in the brain, but the wider implications of VMI remained unclear.

Now, a team of scientists led by Assistant Professor Katsuya Sakai from Tokyo Metropolitan University have shown that VMI can improve motor performance and early-stage motor learning.

Continued below image.
Figure 1. Volunteers were asked to try to rotate two balls around each other on their hands under two different learning conditions - Image Credit: Tokyo Metropolitan University.
Figure 1. Volunteers were asked to try to rotate two balls around each other on their hands under two different learning conditions - Image Credit: Tokyo Metropolitan University.
Continued...

Volunteers were set a specific task, rolling two metal ball around in one hand. After some initial testing, a visual aid was used which showed hands performing this exact action. One group had the visual aid placed in front of their hand to invoke VMI, while another group simply watched the same video normally. Performance could be measured by the number of complete rolls that people managed.

Though both groups showed improvement, the VMI group showed more improvement than the AO group, both immediately after the video was shown to volunteers, and one hour afterwards. This not only shows improvement in performance but highlights that early-stage learning has also improved i.e. the changes can persist.

To understand what is happening in the brain, the team used functional near-infrared spectroscopy, a non-invasive technique that helps track activity in specific parts of the brain using external probes. They were able to find key differences between AO and VMI volunteers in parts of the brain associated with learning new movements.

Continued below image.
Figure 2. Top: Comparing before and immediately after training (left) and one hour after training (right), motor performance has clearly improved. In both cases, the VMI group shows more improvement than the AO group. Bottom: Near-infrared spectroscopy can give the levels of oxygenated and deoxygenated hemoglobin in a specific part of the brain, highlighting activity at different times during the task. Different colors correspond to different compounds at different times before or after training - Image Credit: Tokyo Metropolitan University.
Figure 2. Top: Comparing before and immediately after training (left) and one hour after training (right), motor performance has clearly improved. In both cases, the VMI group shows more improvement than the AO group. Bottom: Near-infrared spectroscopy can give the levels of oxygenated and deoxygenated hemoglobin in a specific part of the brain, highlighting activity at different times during the task. Different colors correspond to different compounds at different times before or after training - Image Credit: Tokyo Metropolitan University.
Continued...

Importantly, these changes were found to persist an hour after the visual stimuli, matching what they found from performance on the task. This was also in line with previous findings from the group showing how connectivity in parts of the brain responsible for motor execution was enhanced by VMI.

The team note that there is still a lot of work to be done. For example, these findings come from a study on healthy individuals, and there is yet to be any assessment of mid to long-term motor performance. However, the insights gleaned from this study shed light on a unique strategy to improve motor performance and learning, which may one day be applied to the rehabilitation of hemiplegic stroke patients and guide the development of new treatments.

This work was supported by JSPS KAKENHI Grant Number 22K17569.

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Attribution/Source(s):

This peer reviewed publication was selected for publishing by the editors of Disabled World due to its significant relevance to the disability community. Originally authored by Tokyo Metropolitan University, and published on 2023/12/23, the content may have been edited for style, clarity, or brevity. For further details or clarifications, Tokyo Metropolitan University can be contacted at tmu.ac.jp/english/index.html. NOTE: Disabled World does not provide any warranties or endorsements related to this article.

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