We studied event-related desynchronization (ERD) of the 8–13 Hz rhythm (mu rhythm) of the primary somatosensory cortex (SI) caused by contra- and ipsilateral median-nerve stimulation. We used whole-head magnetoencephalography (MEG) and wavelet analysis together with our newly developed color-coded single-trial ERD display. The somatosensory stimuli suppressed mu rhythm at both contra- and ipsilateral SI, but the attenuation was clearly lateralized, being at least 20% stronger contra- than ipsilaterally. Moreover, repeated stimulation significantly reduced mu-rhythm ERD in the ipsilateral but not in the contralateral hemisphere in the course of the experiment. The observed lateralization is in agreement with the classical concept of a domina...
Objective We characterised the spectral response of the EEG to median nerve stimulation using wav...
In the present study, we mapped the spatio-temporal dynamics of cortical responses to ipsilateral me...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...
We studied event-related desynchronization (ERD) of the 8–13 Hz rhythm (mu rhythm) of the primary so...
Objectives: Brain responses to auditory and visual stimuli have been previously shown to depend on t...
Objectives: To examine the temporal stability and variability of neuronal synchronization among the ...
Cortical mu (10-12 Hz) Event-Related Desynchronization (ERD) and mean Movement-Related Potentials (m...
Passive electrical stimulation activates various human somatosensory cortical systems including the ...
Entrainment of brain oscillations can be achieved using rhythmic non-invasive brain stimulation, and...
Passive electrical stimulation activates various human somatosensory cortical systems including the ...
Purpose: Previous findings have shown that the human somatosensory cortical systems that are activat...
Transforming sensory input into motor output is an important function of the brain and involves vari...
In the somatosensory domain it is still unclear at which processing stage information reaches the op...
In the somatosensory domain it is still unclear at which processing stage information reaches the op...
We have studied human stereopsis by analysing magnetoencephalographic signals during the presentatio...
Objective We characterised the spectral response of the EEG to median nerve stimulation using wav...
In the present study, we mapped the spatio-temporal dynamics of cortical responses to ipsilateral me...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...
We studied event-related desynchronization (ERD) of the 8–13 Hz rhythm (mu rhythm) of the primary so...
Objectives: Brain responses to auditory and visual stimuli have been previously shown to depend on t...
Objectives: To examine the temporal stability and variability of neuronal synchronization among the ...
Cortical mu (10-12 Hz) Event-Related Desynchronization (ERD) and mean Movement-Related Potentials (m...
Passive electrical stimulation activates various human somatosensory cortical systems including the ...
Entrainment of brain oscillations can be achieved using rhythmic non-invasive brain stimulation, and...
Passive electrical stimulation activates various human somatosensory cortical systems including the ...
Purpose: Previous findings have shown that the human somatosensory cortical systems that are activat...
Transforming sensory input into motor output is an important function of the brain and involves vari...
In the somatosensory domain it is still unclear at which processing stage information reaches the op...
In the somatosensory domain it is still unclear at which processing stage information reaches the op...
We have studied human stereopsis by analysing magnetoencephalographic signals during the presentatio...
Objective We characterised the spectral response of the EEG to median nerve stimulation using wav...
In the present study, we mapped the spatio-temporal dynamics of cortical responses to ipsilateral me...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...