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Short-Term Modulation of Online Monocular Visuomotor Function.

Gabriela Oancea1, Damian M Manzone1, Luc Tremblay1

  • 1Perceptual Motor Behaviour Laboratory, Centre for Motor Control, Faculty of Kinesiology and Physical Education, University of Toronto, Toronto, Ontario, Canada.

Journal of Motor Behavior
|January 26, 2024
PubMed
Summary

This study shows that practicing with one eye improves movement correction for that specific eye. Monocular visual-motor pathways demonstrate short-term neuroplasticity, enhancing online movement correction abilities.

Keywords:
limb trajectory correctionsmanual aimingmotor controlneural plasticityvisual asymmetry

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Area of Science:

  • Neuroscience
  • Motor Control
  • Human Vision

Background:

  • Online movement correction is typically more effective with dominant limbs and eyes.
  • Previous research indicates dominant eye vision enhances online movement correction.
  • Limited understanding exists regarding short-term neuroplasticity in monocular visual-motor functions.

Purpose of the Study:

  • To investigate if monocular visual-motor pathways can adapt through practice for improved online movement correction.
  • To determine if short-term neuroplastic changes occur in visuomotor functions based on monocular information.

Main Methods:

  • Participants (n=12) performed monocular pointing movements.
  • Online movement correction was assessed for imperceptibly displaced targets.
  • Training focused exclusively on the eye with smaller correction amplitudes during acquisition.

Main Results:

  • Post-training assessment showed significant improvement in delayed retention for the trained (smaller amplitude) eye.
  • The untrained eye did not show comparable improvements.
  • This suggests targeted practice enhances specific monocular visuomotor pathways.

Conclusions:

  • Monocular visuomotor pathways are capable of short-term neuroplastic changes.
  • Targeted practice can lead to specific improvements in online movement correction abilities.
  • These findings contribute to understanding visual-motor adaptation and plasticity.