Widespread theta synchrony and high-frequency desynchronization underlies enhanced cognition
cognition
0301 basic medicine
brain
Science
Electroencephalography Phase Synchronization
150
610
Article
memory
03 medical and health sciences
Cognition
Memory
Medicine and Health Sciences
Connectome
Animals
Gamma Rhythm
Humans
Theta Rhythm
research work
electrical conductivity
neurology
nervous system
Q
Neurosciences
Brain
electrode
Mental Recall
Surgery
DOI:
10.1038/s41467-017-01763-2
Publication Date:
2017-11-16T21:04:00Z
AUTHORS (15)
ABSTRACT
AbstractThe idea that synchronous neural activity underlies cognition has driven an extensive body of research in human and animal neuroscience. Yet, insufficient data on intracranial electrical connectivity has precluded a direct test of this hypothesis in a whole-brain setting. Through the lens of memory encoding and retrieval processes, we construct whole-brain connectivity maps of fast gamma (30–100 Hz) and slow theta (3–8 Hz) spectral neural activity, based on data from 294 neurosurgical patients fitted with indwelling electrodes. Here we report that gamma networks desynchronize and theta networks synchronize during encoding and retrieval. Furthermore, for nearly all brain regions we studied, gamma power rises as that region desynchronizes with gamma activity elsewhere in the brain, establishing gamma as a largely asynchronous phenomenon. The abundant phenomenon of theta synchrony is positively correlated with a brain region’s gamma power, suggesting a predominant low-frequency mechanism for inter-regional communication.
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