Unlike overt movement, motor imagery cannot update internal models

IF 2.2 3区心理学 Q3 NEUROSCIENCES

Brain and Cognition Pub Date : 2024-09-05 DOI:10.1016/j.bandc.2024.106219

Juliet M. Rowe , Shaun G. Boe

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引用次数: 0

Abstract

In overt movement, internal models make predictions about the sensory consequences of a desired movement, generating the appropriate motor commands to achieve that movement. Using available sensory feedback, internal models are updated to allow for movement adaptation and in-turn better performance. Whether internal models are updated during motor imagery, the mental rehearsal of movement, is not well established. To investigate internal modelling during motor imagery, 66 participants were exposed to a leftwards prism shift while performing actual pointing movements (physical practice; PP), imagined pointing movements (motor imagery; MI), or no pointing movements (control). If motor imagery updates internal models, we hypothesized that aftereffects (pointing in the direction opposite the prism shift) would be observed in MI, like that of PP, and unlike that of control. After prism exposure, the magnitude of aftereffects was significant in PP (4.73° ± 1.56°), but not in MI (0.34° ± 0.96°) and control (0.34° ± 1.04°). Accordingly, PP differed significantly from MI and control. Our results show that motor imagery does not update internal models, suggesting that it is not a direct simulation of overt movement. Furthering our understanding of the mechanisms that underlie learning through motor imagery will lead to more effective applications of motor imagery.

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与公开运动不同，运动图像无法更新内部模型。

在公开运动中，内部模型会对所需运动的感官后果进行预测，并生成适当的运动指令以实现该运动。利用现有的感官反馈，内部模型得到更新，以适应运动，进而取得更好的成绩。运动想象是对运动的心理预演，在运动想象过程中内部模型是否会更新尚未得到充分证实。为了研究运动想象过程中的内部模型，66 名参与者在进行实际指向动作（身体练习；PP）、想象指向动作（运动想象；MI）或不进行指向动作（对照组）时，受到了向左棱镜移动的影响。如果运动想象能更新内部模型，我们假设在运动想象中会观察到后效（指向与棱镜移动相反的方向），这与物理练习的后效相同，而与对照组的后效不同。三棱镜照射后，后视效应的幅度在多巴（4.73° ± 1.56°）中显著，而在密歇根（0.34° ± 0.96°）和对照（0.34° ± 1.04°）中则不显著。因此，PP 与 MI 和对照组有显著差异。我们的研究结果表明，运动想象不会更新内部模型，这表明运动想象并不是对公开运动的直接模拟。进一步了解通过运动想象进行学习的机制将有助于更有效地应用运动想象。

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

Brain and Cognition 医学-神经科学

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Brain and Cognition is a forum for the integration of the neurosciences and cognitive sciences. B&C publishes peer-reviewed research articles, theoretical papers, case histories that address important theoretical issues, and historical articles into the interaction between cognitive function and brain processes. The focus is on rigorous studies of an empirical or theoretical nature and which make an original contribution to our knowledge about the involvement of the nervous system in cognition. Coverage includes, but is not limited to memory, learning, emotion, perception, movement, music or praxis in relationship to brain structure or function. Published articles will typically address issues relating some aspect of cognitive function to its neurological substrates with clear theoretical import, formulating new hypotheses or refuting previously established hypotheses. Clinical papers are welcome if they raise issues of theoretical importance or concern and shed light on the interaction between brain function and cognitive function. We welcome review articles that clearly contribute a new perspective or integration, beyond summarizing the literature in the field; authors of review articles should make explicit where the contribution lies. We also welcome proposals for special issues on aspects of the relation between cognition and the structure and function of the nervous system. Such proposals can be made directly to the Editor-in-Chief from individuals interested in being guest editors for such collections.