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ECoG;; electrophysiology;; power spectrum;; 1/f;; narrow-band gamma;; primary visual-cortex;; human sensorimotor cortex;; gamma-band activity;; free brain activity;; intracranial recordings;; neuronal oscillations;; power spectra;; spike trains;; firing rate;; 1/f noise;; Neurosciences & Neurology;; Physiology
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Full-Text Articles in Medicine and Health Sciences
A Unifying Principle Underlying The Extracellular Field Potential Spectral Responses In The Human Cortex, E. Podvalny, N. Noy, M. Harel, S. Bickel, G. Chechik, C. E. Schroeder, A. D. Mehta, M. Tsodyks, R. Malach
A Unifying Principle Underlying The Extracellular Field Potential Spectral Responses In The Human Cortex, E. Podvalny, N. Noy, M. Harel, S. Bickel, G. Chechik, C. E. Schroeder, A. D. Mehta, M. Tsodyks, R. Malach
Journal Articles
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However, it is unknown to what extent these complex band-limited changes are interrelated or, alternatively, reflect separate neuronal processes. To address this question, intracranial electrocorticograms (ECoG) responses were recorded in patients engaged in visuomotor tasks. We found that in the 10- to 100-Hz frequency range there was a significant reduction in the exponent chi of the 1/f(chi) component of the spectrum associated with neuronal activation. In a minority of electrodes showing particularly high activations the exponent reduction was associated with specific band-limited power modulations: emergence of a high gamma (80-100 …