Short-Term Modulation of Online Monocular Visuomotor Function.

IF 1.1 4区心理学 Q4 NEUROSCIENCES Journal of Motor Behavior Pub Date : 2024-01-01 Epub Date: 2024-01-26 DOI:10.1080/00222895.2024.2306322

Gabriela Oancea, Damian M Manzone, Luc Tremblay

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Abstract

Previous literature suggests that correcting ongoing movements is more effective when using the dominant limb and seeing with the dominant eye. Specifically, individuals are more effective at adjusting their movement to account for an imperceptibly perturbed or changed target location (i.e., online movement correction), when vision is available to the dominant eye. However, less is known if visual-motor functions based on monocular information can undergo short-term neuroplastic changes after a bout of practice, to improve online correction processes. Participants (n = 12) performed pointing movements monocularly and their ability to correct their movement towards an imperceptibly displaced target was assessed. On the first day, the eye associated with smaller correction amplitudes was exclusively trained during acquisition. While correction amplitude was assessed again with both eyes monocularly, only the eye with smaller correction amplitudes in the pre-test showed significant improvement in delayed retention. These results indicate that monocular visuomotor pathways can undergo short-term neuroplastic changes.

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在线单眼视觉运动功能的短期调节。

以往的文献表明，在使用优势肢体并用优势眼观看时，纠正正在进行的动作会更有效。具体来说，当优势眼有视觉时，个体能更有效地调整自己的动作，以考虑到不易察觉的扰动或改变的目标位置（即在线动作矫正）。然而，对于基于单眼信息的视觉运动功能是否会在经过一段时间的练习后发生短期的神经可塑性变化，从而改善在线校正过程，人们却知之甚少。受试者（n = 12）以单眼进行指向运动，并评估他们对不易察觉的移位目标进行校正的能力。第一天，只对校正幅度较小的那只眼睛进行习得训练。再次用双眼进行单眼矫正振幅评估时，只有在前测中矫正振幅较小的那只眼睛在延迟保持方面有明显改善。这些结果表明，单眼视觉运动通路会发生短期的神经可塑性变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Motor Behavior 医学-神经科学

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Motor Behavior, a multidisciplinary journal of movement neuroscience, publishes articles that contribute to a basic understanding of motor control. Articles from different disciplinary perspectives and levels of analysis are encouraged, including neurophysiological, biomechanical, electrophysiological, psychological, mathematical and physical, and clinical approaches. Applied studies are acceptable only to the extent that they provide a significant contribution to a basic issue in motor control. Of special interest to the journal are those articles that attempt to bridge insights from different disciplinary perspectives to infer processes underlying motor control. Those approaches may embrace postural, locomotive, and manipulative aspects of motor functions, as well as coordination of speech articulators and eye movements. Articles dealing with analytical techniques and mathematical modeling are welcome.