Literature DB >> 27669146

Cross-frequency synchronization connects networks of fast and slow oscillations during visual working memory maintenance.

Felix Siebenhühner1, Sheng H Wang1, J Matias Palva1, Satu Palva1,2.   

Abstract

Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attentional control, respectively, of sensory information maintained in visual working memory (VWM). Within these regions, beta/gamma phase-synchronization supports the integration of sensory functions, while synchronization in theta/alpha bands supports the regulation of attentional functions. A key challenge is to understand which mechanisms integrate neuronal processing across these distinct frequencies and thereby the sensory and attentional functions. We investigated whether such integration could be achieved by cross-frequency phase synchrony (CFS). Using concurrent magneto- and electroencephalography, we found that CFS was load-dependently enhanced between theta and alpha-gamma and between alpha and beta-gamma oscillations during VWM maintenance among visual, FP, and dorsal attention (DA) systems. CFS also connected the hubs of within-frequency-synchronized networks and its strength predicted individual VWM capacity. We propose that CFS integrates processing among synchronized neuronal networks from theta to gamma frequencies to link sensory and attentional functions.

Entities:  

Keywords:  MEG; human; neuroscience; oscillation; synchrony; working memory

Mesh:

Year:  2016        PMID: 27669146      PMCID: PMC5070951          DOI: 10.7554/eLife.13451

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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