Electrical brain signals are often decomposed into frequency ranges that are implicated in different functions. Using subdural electrocorticography (ECoG, intracranial EEG) and functional magnetic resonance imaging (fMRI), we measured frequency spectra and BOLD responses in primary visual cortex (V1) and intraparietal sulcus (IPS). In V1 and IPS, 30-120. Hz (gamma, broadband) oscillations allowed population receptive field (pRF) reconstruction comparable to fMRI estimates. Lower frequencies, however, responded very differently in V1 and IPS. In V1, broadband activity extends down to 3. Hz. In the 4-7. Hz (theta) and 18-30. Hz (beta) ranges broadband activity increases power during stimulation within the pRF. However, V1 9-12. Hz (alpha) fre...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...
In the past decade, the fast and transient coupling and uncoupling of functionally related brain reg...
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
Population receptive field (pRF) modelling reconstructs the properties of visually responsive neuron...
SummaryBackgroundActivity in the living human brain can be studied using multiple methods, spanning ...
Summary. Human occipital potentials evoked by stimulation with a counterphase flickering grating wer...
In the absence of cognitive tasks and external stimuli, strong rhythmic fluctuations with a frequenc...
A striking feature of some field potential recordings in visual cortex is a rhythmic oscillation wit...
Although functional magnetic resonance imaging is an important tool for measuring brain activity, t...
Objective: To investigate spatiotemporal characteristics and functional correlates of evoked oscilla...
In the absence of cognitive tasks and external stimuli, strong rhythmic fluctuations with a frequenc...
Physiological high frequency activities (HFA) are related to various brain functions. Factors, howev...
In humans, visual flicker stimuli of graded frequency (2--90 Hz) elicit an electroencephalographic ...
The brain response to temporal frequencies (TF) has been already reported, but with no study for dif...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...
In the past decade, the fast and transient coupling and uncoupling of functionally related brain reg...
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However...
Electrical brain signals are often decomposed into frequency ranges that are implicated in different...
Population receptive field (pRF) modelling reconstructs the properties of visually responsive neuron...
SummaryBackgroundActivity in the living human brain can be studied using multiple methods, spanning ...
Summary. Human occipital potentials evoked by stimulation with a counterphase flickering grating wer...
In the absence of cognitive tasks and external stimuli, strong rhythmic fluctuations with a frequenc...
A striking feature of some field potential recordings in visual cortex is a rhythmic oscillation wit...
Although functional magnetic resonance imaging is an important tool for measuring brain activity, t...
Objective: To investigate spatiotemporal characteristics and functional correlates of evoked oscilla...
In the absence of cognitive tasks and external stimuli, strong rhythmic fluctuations with a frequenc...
Physiological high frequency activities (HFA) are related to various brain functions. Factors, howev...
In humans, visual flicker stimuli of graded frequency (2--90 Hz) elicit an electroencephalographic ...
The brain response to temporal frequencies (TF) has been already reported, but with no study for dif...
Contains fulltext : 208235.pdf (publisher's version ) (Open Access)This study uses...
In the past decade, the fast and transient coupling and uncoupling of functionally related brain reg...
Electrophysiological mass potentials show complex spectral changes upon neuronal activation. However...