Litcius/Paper detail

Flexibility of intrinsic neural timescales during distinct behavioral states

Yasir Çatal, Kaan Keskin, Angelika Wolman, Philipp Klar, David Smith, Georg Northoff

2024Communications Biology16 citationsDOIOpen Access PDF

Abstract

Recent neuroimaging studies demonstrate a heterogeneity of timescales prevalent in the brain's ongoing spontaneous activity, labeled intrinsic neural timescales (INT). At the same time, neural timescales also reflect stimulus- or task-related activity. The relationship of the INT during the brain's spontaneous activity with their involvement in task states including behavior remains unclear. To address this question, we combined calcium imaging data of spontaneously behaving mice and human electroencephalography (EEG) during rest and task states with computational modeling. We obtained four primary findings: (i) the distinct behavioral states can be accurately predicted from INT, (ii) INT become longer during behavioral states compared to rest, (iii) INT change from rest to task is correlated negatively with the variability of INT during rest, (iv) neural mass modeling shows a key role of recurrent connections in mediating the rest-task change of INT. Extending current findings, our results show the dynamic nature of the brain's INT in reflecting continuous behavior through their flexible rest-task modulation possibly mediated by recurrent connections.

Topics & Concepts

Rest (music)NeuroimagingPsychologyNeuroscienceElectroencephalographyNeural activityTask (project management)Brain activity and meditationStimulus (psychology)Cognitive psychologyPhysicsManagementEconomicsAcousticsNeural dynamics and brain functionFunctional Brain Connectivity StudiesEEG and Brain-Computer Interfaces
Flexibility of intrinsic neural timescales during distinct behavioral states | Litcius