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The thalamocortical inhibitory network controls human conscious perception

Jeehye Seo, Dae‐Jin Kim, Sang‐Han Choi, Hyoungkyu Kim, Byoung‐Kyong Min

2022NeuroImage20 citationsDOIOpen Access PDF

Abstract

Although conscious perception is a fundamental cognitive function, its neural correlates remain unclear. It remains debatable whether thalamocortical interactions play a decisive role in conscious perception. To clarify this, we used functional magnetic resonance imaging (fMRI) where flickering red and green visual cues could be perceived either as a non-fused colour or fused colour. Here we show significantly differentiated fMRI neurodynamics only in higher-order thalamocortical regions, compared with first-order thalamocortical regions. Anticorrelated neurodynamic behaviours were observed between the visual stream network and default-mode network. Its dynamic causal modelling consistently provided compelling evidence for the involvement of higher-order thalamocortical iterative integration during conscious perception of fused colour, while inhibitory control was revealed during the non-fusion condition. Taken together with our recent magnetoencephalography study, our fMRI findings corroborate a thalamocortical inhibitory model for consciousness, where both thalamic inhibitory regulation and integrative signal iterations across higher-order thalamocortical regions are essential for conscious perception.

Topics & Concepts

PerceptionNeuroscienceConsciousnessPsychologyFunctional magnetic resonance imagingInhibitory postsynaptic potentialMagnetoencephalographyDefault mode networkCognitive psychologyNeural correlates of consciousnessThalamusVisual perceptionCognitionElectroencephalographyNeural dynamics and brain functionFunctional Brain Connectivity StudiesVisual perception and processing mechanisms
The thalamocortical inhibitory network controls human conscious perception | Litcius