Working memory is implicated in various higher-order cognitive operations. We hypothesized that the availability of a temporal representation in working memory would limit the extent of cortico-cortical coupling necessary to undertake a self-paced rhythmic movement. To this end we examined modulations in cortico-cortical interactions as determined by EEG coherence during a delay interval and subsequent movement reproduction. Right hand movement was initially paced by a metronome beat every 0.9 s, followed by a delay interval, after which hand movement was repeated in an unpaced manner. Movement reproduction after a long (22.5 s, corresponding to 25 movement cycles) compared to a short (5.4 s, corresponding to 6 movement cycles) delay interv...
Previously, the effects of external visual stimulation on cortico-muscular synchronization was studi...
The extent and function of synchronization of oscillatory elements in the human sensorimotor cortex ...
Electroencephalographic and magnetoencephalographic data have characterized two types of brain–body ...
Given the connectivity of its inputs, the neocortex is the largest part of the brain which is mainly...
We investigated the neural correlates of dual task performance using EEG coherence as a measure of t...
Local groups of neurons engaged in a cognitive task often exhibit rhythmically synchronized activity...
Cognitive regulation enables a subject to plan actions according to context and to respond in a flex...
Item does not contain fulltextOscillatory activity is prominent in the brain, and one hypothesis is ...
Functional interaction between cortical areas may involve synchronization of activities, manifest as...
Large areas of the human motor cortex are devoted to the control of the contralateral hand and forea...
To investigate the activity of cortical regions in the control of movement, we studied event-related...
Neural oscillations are thought to underlie coupling of spatially remote neurons and gating of infor...
Here we test the hypothesis that frequency and topographically specific changes in the strength of f...
Previously, the effects of external visual stimulation on cortico-muscular synchronization was studi...
Transiently storing information and mentally manipulating it is known as working memory. These opera...
Previously, the effects of external visual stimulation on cortico-muscular synchronization was studi...
The extent and function of synchronization of oscillatory elements in the human sensorimotor cortex ...
Electroencephalographic and magnetoencephalographic data have characterized two types of brain–body ...
Given the connectivity of its inputs, the neocortex is the largest part of the brain which is mainly...
We investigated the neural correlates of dual task performance using EEG coherence as a measure of t...
Local groups of neurons engaged in a cognitive task often exhibit rhythmically synchronized activity...
Cognitive regulation enables a subject to plan actions according to context and to respond in a flex...
Item does not contain fulltextOscillatory activity is prominent in the brain, and one hypothesis is ...
Functional interaction between cortical areas may involve synchronization of activities, manifest as...
Large areas of the human motor cortex are devoted to the control of the contralateral hand and forea...
To investigate the activity of cortical regions in the control of movement, we studied event-related...
Neural oscillations are thought to underlie coupling of spatially remote neurons and gating of infor...
Here we test the hypothesis that frequency and topographically specific changes in the strength of f...
Previously, the effects of external visual stimulation on cortico-muscular synchronization was studi...
Transiently storing information and mentally manipulating it is known as working memory. These opera...
Previously, the effects of external visual stimulation on cortico-muscular synchronization was studi...
The extent and function of synchronization of oscillatory elements in the human sensorimotor cortex ...
Electroencephalographic and magnetoencephalographic data have characterized two types of brain–body ...