Literature DB >> 19144842

Nonlinear phase-phase cross-frequency coupling mediates communication between distant sites in human neocortex.

Felix Darvas1, Kai J Miller, Rajesh P N Rao, Jeffrey G Ojemann.   

Abstract

Human cognition is thought to be mediated by large-scale interactions between distant sites in the neocortex. Synchronization between different cortical areas has been suggested as one possible mechanism for corticocortical interaction. Here, we report robust, directional cross-frequency synchronization between distant sensorimotor sites in human neocortex during a movement task. In four subjects, electrocorticographic recordings from the cortical surface revealed a low-frequency rhythm (10-13 Hz) that combined with a higher frequency (77-82 Hz) in a ventral region of the premotor cortex to produce a third rhythm at the sum of these two frequencies in a distant motor site. Such cross-frequency coupling implies a nonlinear interaction between these cortical sites. These findings demonstrate that task-specific, phase-phase coupling can support communication between distant areas of the human neocortex.

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Year:  2009        PMID: 19144842      PMCID: PMC2745189          DOI: 10.1523/JNEUROSCI.3688-08.2009

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  25 in total

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  36 in total

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4.  Clinical Applications of Brain-Computer Interfaces: Current State and Future Prospects.

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5.  Regional Patterns of Cortical Phase Synchrony in the Resting State.

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9.  Directional patterns of cross frequency phase and amplitude coupling within the resting state mimic patterns of fMRI functional connectivity.

Authors:  Kurt E Weaver; Jeremiah D Wander; Andrew L Ko; Kaitlyn Casimo; Thomas J Grabowski; Jeffrey G Ojemann; Felix Darvas
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10.  Bi-phase locking - a tool for probing non-linear interaction in the human brain.

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