Revealing the spacetime hierarchical whole-brain dynamics of auditory predictive coding

Author:

Bonetti L.,Fernández Rubio G.,Carlomagno F.,Pantazis D.,Vuust P.,Kringelbach M.L.

Abstract

AbstractTo survive the brain must extract and predict information from key spacetime features of the physical world. While neural processing of visuospatial patterns has been extensively studied, much remains to be discovered about the hierarchical brain mechanisms underlying recognition of auditory sequences with associated prediction errors. We used magnetoencephalography (MEG) to study the temporal unfolding over milliseconds of brain activity in 83 participants recognising melodies and variations thereof. The results showed a hierarchy of processing in networks from the auditory to the ventromedial prefrontal and inferior temporal cortices, hippocampus and medial cingulate gyrus. Both original melodies and variations engaged the pathway from auditory cortex at the bottom of the hierarchy to upstream processing in hippocampus and ventromedial prefrontal cortex, but differed in terms of temporal dynamics, where the recognition of originals elicited stronger gamma power. Our results provide detailed spacetime insights into the hierarchical brain mechanisms underlying auditory sequence recognition.

Publisher

Cold Spring Harbor Laboratory

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