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A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power

Marius Schneider, Ana Clara Broggini, Benjamin Dann, Αθανασία Τζάνου, Cem Uran, Swathi Sheshadri, Hansjörg Scherberger, Martin Vinck

2021Neuron172 citationsDOIOpen Access PDF

Abstract

Inter-areal coherence between field potentials is a widespread phenomenon in cortex. Coherence has been hypothesized to reflect phase-synchronization between oscillators and flexibly gate communication according to behavioral and cognitive demands. We reveal an alternative mechanism where coherence is not the cause but the consequence of communication and naturally emerges because spiking activity in a sending area causes post-synaptic potentials both in the same and in other areas. Consequently, coherence depends in a lawful manner on power and phase-locking in the sender and connectivity. Changes in oscillatory power explained prominent changes in fronto-parietal and LGN-V1 coherence across behavioral conditions. Optogenetic experiments and excitatory-inhibitory network simulations identified afferent synaptic inputs rather than spiking entrainment as the principal determinant of coherence. These findings suggest that unique spectral profiles of different brain areas automatically give rise to large-scale coherence patterns that follow anatomical connectivity and continuously reconfigure as a function of behavior and cognition.

Topics & Concepts

Coherence (philosophical gambling strategy)NeuroscienceOptogeneticsLocal field potentialComputer scienceExcitatory postsynaptic potentialInhibitory postsynaptic potentialPsychologyPhysicsQuantum mechanicsNeural dynamics and brain functionPhotoreceptor and optogenetics researchNeuroscience and Neural Engineering