Alpha and Theta Bands Dynamics Serve Distinct Functions during Perception–Action Integration in Response Inhibition

Author:

Prochnow Astrid1ORCID,Eggert Elena1ORCID,Münchau Alexander2,Mückschel Moritz1,Beste Christian1

Affiliation:

1. TU Dresden

2. University of Lübeck

Abstract

Abstract The ability to inhibit responses is central for situational behavior. However, the mechanisms how sensory information is used to inform inhibitory control processes are incompletely understood. In the current study, we examined neurophysiological processes of perception–action integration in response inhibition using the theory of event coding as a conceptual framework. Based on theoretical considerations, we focused on theta and alpha band activity in close connection to the functional neuroanatomical level using EEG beamforming. Moreover, we performed a network-based analysis of theta and alpha band activity. We show a seesaw-like relationship between medial and superior frontal cortex theta band activity and frontoparietal cortex alpha band activity during perception–action integration in response inhibition, depending on the necessity to reconfigure perception–action associations. When perception–action integration was more demanding, because perception–action associations (bindings) have to be reconfigured, there was an increase of theta and a decrease of alpha band activity. Vice versa, when there was no need to reconfigure perception–action bindings, theta band activity was low and alpha band activity was high. However, theta band processes seem to be most important for perception–action integration in response inhibition, because only the sensor-level network organization of theta band activity showed variations depending on the necessity to reconfigure perception–action associations. When no reconfiguration was necessary, the network architecture was more small-world-like, likely enabling efficient processing. When reconfigurations were necessary, the network organization becomes more random. These differences were particularly strong for fractions of the neurophysiological signal supposed to reflect response selection processes.

Funder

Deutsche Forschungsgemeinschaft

Publisher

MIT Press - Journals

Subject

Cognitive Neuroscience

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