Litcius/Paper detail

Multi-level decoding of task sets in neurophysiological data during cognitive flexibility

Vanessa A. Petruo, Ádám Takács, Moritz Mückschel, Bernhard Hommel, Christian Beste

2021iScience28 citationsDOIOpen Access PDF

Abstract

Cognitive flexibility is essential to achieve higher level goals. Cognitive theories assume that the activation/deactivation of goals and task rules is central to understand cognitive flexibility. However, how this activation/deactivation dynamic is implemented on a neurophysiological level is unclear. Using EEG-based multivariate pattern analysis (MVPA) methods, we show that activation of relevant information occurs parallel in time at multiple levels in the neurophysiological signal containing aspects of stimulus-related processing, response selection, and motor response execution, and relates to different brain regions. The intensity with which task sets are activated and processed dynamically decreases and increases. The temporal stability of these activations could, however, hardly explain behavioral performance. Instead, task set deactivation processes associated with left orbitofrontal regions and inferior parietal regions selectively acting on motor response task sets are relevant. The study shows how propositions from cognitive theories stressing the importance task set activation/deactivation during cognitive flexibility are implemented on a neurophysiological level.

Topics & Concepts

NeurophysiologyCognitive flexibilityCognitionTask switchingCognitive psychologyStimulus (psychology)Flexibility (engineering)Computer scienceTask (project management)ElectroencephalographyPsychologyNeuroscienceArtificial intelligenceStatisticsEconomicsMathematicsManagementNeural and Behavioral Psychology StudiesEEG and Brain-Computer InterfacesMotor Control and Adaptation