Modulation of anticipatory brain activity as a function of action complexity

IF 2.7 3区医学 Q1 BEHAVIORAL SCIENCES

Biological Psychology Pub Date : 2024-11-01 DOI:10.1016/j.biopsycho.2024.108959

Andrea Casella , BiancaMaria Di Bello , Merve Aydin , Stefania Lucia , Francesco Di Russo , Sabrina Pitzalis

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引用次数: 0

Abstract

Stimulus-driven actions are preceded by preparatory brain activity that can be expressed by event-related potentials (ERP). Literature on this topic has focused on simple actions, such as the finger keypress, finding activity in frontal, parietal, and occipital areas detectable up to two seconds before the stimulus onset. Little is known about the preparatory brain activity when the action complexity increases, and specific brain areas designated to achieve movement integration intervene. This paper aims to identify the time course of preparatory brain activity associated with actions of increasing complexity using ERP analysis and a visuomotor discrimination task. Motor complexity was manipulated by asking nineteen volunteers to provide their response by simply pressing a key or by adding to the keypress arm extensions alone, or in combination with a standing step (involving the whole body). Results showed that these actions of increasing levels of complexity appear to be associated with different patterns of preparatory brain activity in which the found components were differently modulated. The simple keypress was characterized by the prominent motor excitatory preparation in premotor areas paralleled by the largest prefrontal inhibitory/attentional control. Reaching presented a dominant parietal preparation confirming the role of these integration areas in reaching actions toward a goal. Stepping was characterized by localized activity in the bilateral dorsomedial parieto-occipital areas attributable to sensory readiness, for the approaching stimulus. In conclusion, the brain can optimally anticipate any stimulus-driven action modulating the activity in the brain areas specialized in the preparation of that action type.

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预期性脑活动作为动作复杂性功能的调节。

在刺激驱动的行为之前，大脑会有预备活动，而预备活动可以通过事件相关电位（ERP）来表达。关于这一主题的文献主要集中在简单的动作上，如手指按键，在刺激开始前两秒钟就可以检测到额叶、顶叶和枕叶区域的活动。当动作复杂性增加时，大脑的预备活动知之甚少，而特定的大脑区域被指定为实现运动整合的干预。本文旨在利用ERP分析和视觉运动辨别任务来确定与日益复杂的动作相关的预备脑活动的时间过程。通过要求19名志愿者通过简单地按下一个键或在按键时单独增加手臂伸展，或结合站立的步骤（涉及整个身体）来提供他们的反应，从而控制运动的复杂性。结果表明，这些增加复杂性水平的行为似乎与不同的预备脑活动模式有关，其中发现的成分被不同地调节。简单按键的特点是运动前区有明显的运动兴奋准备，并伴有最大的前额叶抑制/注意控制。到达呈现出主要的顶叶准备，证实了这些整合区域在达到目标行动中的作用。行走的特征是双侧背内侧顶枕区局部活动，这是由于对接近的刺激的感觉准备。总之，大脑可以最理想地预测任何刺激驱动的动作，调节大脑中专门负责准备这种动作类型的区域的活动。

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

Biological Psychology 医学-行为科学

CiteScore

4.20

自引率

11.50%

发文量

146

审稿时长

3 months

期刊介绍： Biological Psychology publishes original scientific papers on the biological aspects of psychological states and processes. Biological aspects include electrophysiology and biochemical assessments during psychological experiments as well as biologically induced changes in psychological function. Psychological investigations based on biological theories are also of interest. All aspects of psychological functioning, including psychopathology, are germane. The Journal concentrates on work with human subjects, but may consider work with animal subjects if conceptually related to issues in human biological psychology.