Department of Psychological and Brain Sciences, University of Iowa, Iowa City, IA, USA.
Department of Psychological and Brain Sciences, University of Iowa, Iowa City, IA, USA; Department of Neurology, Carver College of Medicine, University of Iowa, Iowa City, IA, USA.
Neurosci Biobehav Rev. 2021 Oct;129:17-34. doi: 10.1016/j.neubiorev.2021.07.019. Epub 2021 Jul 19.
The ability to stop already-initiated actions is a key cognitive control ability. Recent work on human action-stopping has been dominated by two controversial debates. First, the contributions (and neural signatures) of attentional orienting and motor inhibition after stop-signals are near-impossible to disentangle. Second, the timing of purportedly inhibitory (neuro)physiological activity after stop-signals has called into question which neural signatures reflect processes that actually contribute to action-stopping. Here, we propose that a two-stage model of action-stopping - proposed by Schmidt and Berke (2017) based on subcortical rodent recordings - may resolve these controversies. Translating this model to humans, we first argue that attentional orienting and motor inhibition are inseparable because orienting to salient events like stop-signals automatically invokes broad motor inhibition, reflecting a fast-acting, ubiquitous Pause process. We then argue that inhibitory signatures after stop-signals differ in latency because they map onto two sequential stages: the salience-related Pause and a slower, stop-specific Cancel process. We formulate the model, discuss recent supporting evidence in humans, and interpret existing data within its context.
停止已经启动的动作的能力是一种关键的认知控制能力。最近关于人类动作停止的研究主要由两个有争议的争论主导。首先,停止信号后注意定向和运动抑制的贡献(和神经特征)几乎不可能分开。其次,停止信号后据称抑制性(神经)生理活动的时间引发了质疑,哪些神经特征反映了实际上有助于动作停止的过程。在这里,我们提出,基于皮质下啮齿动物记录提出的 Schmidt 和 Berke(2017)的动作停止两阶段模型可能解决这些争议。将该模型转化为人类,我们首先认为注意定向和运动抑制是不可分割的,因为对停止信号等显著事件的定向自动引发广泛的运动抑制,反映了快速作用、普遍存在的暂停过程。然后,我们认为停止信号后抑制特征的潜伏期不同,因为它们映射到两个连续的阶段:与显着性相关的暂停和较慢的、特定于停止的取消过程。我们构建了该模型,讨论了最近在人类中得到支持的证据,并在其背景下解释了现有数据。