Add to ORKGStimulus-induced gamma oscillations in the 30–80 Hz range have been implicated in a wide number of functions including visual processing, memory and attention. While occipital gamma-band oscillations can be pharmacologically modified in animal preparations, pharmacological modulation of stimulus-induced visual gamma oscillations has yet to be demonstrated in non-invasive human recordings. Here, in fifteen healthy humans volunteers, we probed the effects of the GABAA agonist and sedative propofol on stimulus-related gamma activity recorded with magnetoencephalography, using a simple visual grating stimulus designed to elicit gamma oscillations in the primary visual cortex. During propofol sedation as compared to the normal awake state, a sig...
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscil...
The altered state of consciousness produced by general anesthetics is associated with a variety of c...
Study Objectives: The electrophysiological correlates of anesthetic sedation remain poorly understoo...
Stimulus-induced gamma oscillations in the 30–80 Hz range have been implicated in a wide number of f...
Stimulus-induced gamma oscillations in the 30-80 Hz range have been implicated in a wide number of f...
Studying changes in cortical oscillations can help elucidate the mechanistic link between receptor p...
Objective. Gamma (γ) oscillations (30-200 Hz) are intrinsic brain rhythms that are important for aro...
Background: Both the cerebral cortex and subcortical structures play important roles in consciousnes...
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscil...
High-frequency oscillations in the gamma-band reflect rhythmic synchronization of spike timing in ac...
Previous research demonstrates that the underlying state of the brain influences how sensory stimuli...
While ubiquitous, pharmacological manipulation of consciousness remains poorly defined and incomplet...
<div><p>Background</p><p>Thalamocortical EEG rhythms in gamma (30-80 Hz) and high-gamma (80-200 Hz) ...
While ubiquitous, pharmacological manipulation of consciousness remains poorly defined and incomplet...
It has been proposed that cortical gamma rhythms are generated within networks of GABAergic interneu...
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscil...
The altered state of consciousness produced by general anesthetics is associated with a variety of c...
Study Objectives: The electrophysiological correlates of anesthetic sedation remain poorly understoo...
Stimulus-induced gamma oscillations in the 30–80 Hz range have been implicated in a wide number of f...
Stimulus-induced gamma oscillations in the 30-80 Hz range have been implicated in a wide number of f...
Studying changes in cortical oscillations can help elucidate the mechanistic link between receptor p...
Objective. Gamma (γ) oscillations (30-200 Hz) are intrinsic brain rhythms that are important for aro...
Background: Both the cerebral cortex and subcortical structures play important roles in consciousnes...
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscil...
High-frequency oscillations in the gamma-band reflect rhythmic synchronization of spike timing in ac...
Previous research demonstrates that the underlying state of the brain influences how sensory stimuli...
While ubiquitous, pharmacological manipulation of consciousness remains poorly defined and incomplet...
<div><p>Background</p><p>Thalamocortical EEG rhythms in gamma (30-80 Hz) and high-gamma (80-200 Hz) ...
While ubiquitous, pharmacological manipulation of consciousness remains poorly defined and incomplet...
It has been proposed that cortical gamma rhythms are generated within networks of GABAergic interneu...
The anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscil...
The altered state of consciousness produced by general anesthetics is associated with a variety of c...
Study Objectives: The electrophysiological correlates of anesthetic sedation remain poorly understoo...