Measuring the nonselective effects of motor inhibition using isometric force recordings.

IF 4.6 2区 心理学 Q1 PSYCHOLOGY, EXPERIMENTAL
Behavior Research Methods Pub Date : 2024-08-01 Epub Date: 2023-08-07 DOI:10.3758/s13428-023-02197-z
Benjamin O Rangel, Giacomo Novembre, Jan R Wessel
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引用次数: 0

Abstract

Inhibition is a key cognitive control mechanism humans use to enable goal-directed behavior. When rapidly exerted, inhibitory control has broad, nonselective motor effects, typically demonstrated using corticospinal excitability measurements (CSE) elicited by transcranial magnetic stimulation (TMS). For example, during rapid action-stopping, CSE is suppressed at both stopped and task-unrelated muscles. While such TMS-based CSE measurements have provided crucial insights into the fronto-basal ganglia circuitry underlying inhibitory control, they have several downsides. TMS is contraindicated in many populations (e.g., epilepsy or deep-brain stimulation patients), has limited temporal resolution, produces distracting auditory and haptic stimulation, is difficult to combine with other imaging methods, and necessitates expensive, immobile equipment. Here, we attempted to measure the nonselective motor effects of inhibitory control using a method unaffected by these shortcomings. Thirty male and female human participants exerted isometric force on a high-precision handheld force transducer while performing a foot-response stop-signal task. Indeed, when foot movements were successfully stopped, force output at the task-irrelevant hand was suppressed as well. Moreover, this nonselective reduction of isometric force was highly correlated with stop-signal performance and showed frequency dynamics similar to established inhibitory signatures typically found in neural and muscle recordings. Together, these findings demonstrate that isometric force recordings can reliably capture the nonselective effects of motor inhibition, opening the door to many applications that are hard or impossible to realize with TMS.

利用等长力记录测量运动抑制的非选择性效应
抑制是人类用来实现目标导向行为的一种关键认知控制机制。抑制控制在快速实施时具有广泛的非选择性运动效应,通常通过经颅磁刺激(TMS)引起的皮质脊髓兴奋性测量(CSE)来证明。例如,在快速动作停止时,停止的肌肉和与任务无关的肌肉的 CSE 都会受到抑制。虽然这种基于经颅磁刺激的 CSE 测量为深入了解抑制控制的前基底神经节电路提供了重要依据,但它们也有一些缺点。许多人群(如癫痫或深部脑刺激患者)禁用 TMS,其时间分辨率有限,会产生分散注意力的听觉和触觉刺激,难以与其他成像方法相结合,而且需要昂贵的固定设备。在这里,我们尝试使用一种不受这些缺陷影响的方法来测量抑制控制的非选择性运动效应。30 名男性和女性人类参与者在执行脚部反应停止信号任务时,在高精度手持式力传感器上施加等长力。事实上,当脚部运动被成功阻止时,与任务无关的手部的力输出也会被抑制。此外,这种等长力的非选择性减少与停止信号的表现高度相关,并显示出与神经和肌肉记录中通常发现的既定抑制特征相似的频率动态。这些发现共同证明,等长力记录可以可靠地捕捉到运动抑制的非选择性效应,从而为 TMS 难以或无法实现的许多应用打开了大门。
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来源期刊
CiteScore
10.30
自引率
9.30%
发文量
266
期刊介绍: Behavior Research Methods publishes articles concerned with the methods, techniques, and instrumentation of research in experimental psychology. The journal focuses particularly on the use of computer technology in psychological research. An annual special issue is devoted to this field.
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