肌肉束为运动序列提供灵活的感觉反馈。

bioRxiv : the preprint server for biology Pub Date : 2024-12-16 DOI:10.1101/2024.09.13.612899

William P Olson, Varun B Chokshi, Jeong Jun Kim, Noah J Cowan, Daniel H O'Connor

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引用次数: 0

摘要

感觉反馈对于运动表现至关重要，而且必须适应任务需求。肌肉主轴传入（MSA）是运动反馈的主要来源，它们的反应很容易受到增益控制纺锤运动神经元和其他机制的在线调节。因此，它们是实现灵活的传感运动控制的强大场所。我们在执行定向舔舐序列任务时记录了支配下颌肌肉的 MSAs 的反应。下颌 MSA 对复杂的下颌-舌头运动学进行了编码。然而，运动学编码本身只占 MSA 尖峰变化的不到一半。MSA对运动学的表征会根据序列的进展（序列的开始、中间或结束，或奖励消耗）而改变，这表明MSA在整个任务中会灵活调整。对来自 MSA 的传入反馈信号进行动态控制，可能是在执行复杂行为时进行适应性感觉运动控制的一种策略。

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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Muscle spindles provide flexible sensory feedback for movement sequences.

Sensory feedback is essential for motor performance and must adapt to task demands. Muscle spindle afferents (MSAs) are a major primary source of feedback about movement, and their responses are readily modulated online by gain-controller fusimotor neurons and other mechanisms. They are therefore a powerful site for implementing flexible sensorimotor control. We recorded from MSAs innervating the jaw musculature during performance of a directed lick sequence task. Jaw MSAs encoded complex jaw-tongue kinematics. However, kinematic encoding alone accounted for less than half of MSA spiking variability. MSA coding of kinematics changed based on sequence progression (beginning, middle, or end of the sequence, or reward consumption), suggesting that MSAs are flexibly tuned across the task. Dynamic control of incoming feedback signals from MSAs may be a strategy for adaptable sensorimotor control during performance of complex behaviors.

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