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 Hz) and a de...
Objective: Restoration of somatosensory deficits in humans requires a clear understanding of the neu...
AbstractOur brain is organized in a modular structure. Information in different modalities is proces...
AbstractElectrocorticography (ECoG) constitutes a powerful and promising neural recording modality i...
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However...
High-gamma-band (\u3e60 Hz) power changes in cortical electrophysiology are a reliable indicator of ...
SummaryAlthough the electroencephalogram (EEG) is widely used in research and clinical settings, its...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
High-gamma band: \u3e60Hz) power changes in cortical electrophysiology are a reliable indicator of f...
A hallmark of electrophysiological brain activity is its 1/f-like spectrum – power decreases with in...
The most widespread measures of human brain activity are the blood-oxygen-level dependent (BOLD) sig...
This thesis describes studies on the electric potential of a neuronal population of about half a mil...
Since the advent of multielectrodes, interest in the low-frequency part of the extracellular field p...
A striking feature of some field potential recordings in visual cortex is a rhythmic oscillation wit...
Physiological high frequency activities (HFA) are related to various brain functions. Factors, howev...
Objective: Restoration of somatosensory deficits in humans requires a clear understanding of the neu...
AbstractOur brain is organized in a modular structure. Information in different modalities is proces...
AbstractElectrocorticography (ECoG) constitutes a powerful and promising neural recording modality i...
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However...
High-gamma-band (\u3e60 Hz) power changes in cortical electrophysiology are a reliable indicator of ...
SummaryAlthough the electroencephalogram (EEG) is widely used in research and clinical settings, its...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
High-gamma band: \u3e60Hz) power changes in cortical electrophysiology are a reliable indicator of f...
A hallmark of electrophysiological brain activity is its 1/f-like spectrum – power decreases with in...
The most widespread measures of human brain activity are the blood-oxygen-level dependent (BOLD) sig...
This thesis describes studies on the electric potential of a neuronal population of about half a mil...
Since the advent of multielectrodes, interest in the low-frequency part of the extracellular field p...
A striking feature of some field potential recordings in visual cortex is a rhythmic oscillation wit...
Physiological high frequency activities (HFA) are related to various brain functions. Factors, howev...
Objective: Restoration of somatosensory deficits in humans requires a clear understanding of the neu...
AbstractOur brain is organized in a modular structure. Information in different modalities is proces...
AbstractElectrocorticography (ECoG) constitutes a powerful and promising neural recording modality i...