Abstract Background The timing of action potentials (“spikes”) of cortical neurons has been shown to be aligned to the phase of low-frequency (< 10 Hz) local field potentials (LFPs) in several cortical areas. However, across the areas, this alignment varies and the role of this spike-phase coupling (SPC) in cognitive functions is not well understood. Results Here, we propose a role in the coordination of neural activity by selective attention. After refining previous analytical methods for measuring SPC, we show that first, SPC is present along the dorsal processing pathway in macaque visual cortex (area MT); second, spikes occur in falling phases of the low-frequency LFP independent of the location of spatial attention; third, switching sp...
The local field potential (LFP), comprised of low-frequency extra-cellular voltage fluctuations, has...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
Oscillatory brain activity is attracting increasing interest in cognitive neuroscience. Numerous EEG...
Contains fulltext : 70766.pdf (publisher's version ) (Open Access)Selective attent...
Oscillations in the local field potential (LFP) are abundant across species and brain regions. The p...
Abstract Local field potentials (LFP) have been the focus of many recent studies in systems neurosci...
SummaryRhythmic activity of neuronal ensembles has been proposed to play an important role in cognit...
Groups of neurons tend to synchronize in distinct frequency bands. Within a given frequency band, sy...
Selective visual attention is subserved by selective neuronal synchronization, entailing precise orc...
Brain signals often show rhythmic activity in the so-called gamma range (30-80 Hz), whose magnitude ...
Neurons receive a vast number of synaptic inputs at the same time. To successfully process a relevan...
SummaryBackgroundIt is widely held that single cells in anterior cingulate and lateral prefrontal co...
Extra-cellular voltage fluctuations (local field potentials; LFPs) reflecting neural mass action are...
SummarySelective visual attention is subserved by selective neuronal synchronization, entailing prec...
Selective visual attention is subserved by selective neuronal synchronization, entailing precise orc...
The local field potential (LFP), comprised of low-frequency extra-cellular voltage fluctuations, has...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
Oscillatory brain activity is attracting increasing interest in cognitive neuroscience. Numerous EEG...
Contains fulltext : 70766.pdf (publisher's version ) (Open Access)Selective attent...
Oscillations in the local field potential (LFP) are abundant across species and brain regions. The p...
Abstract Local field potentials (LFP) have been the focus of many recent studies in systems neurosci...
SummaryRhythmic activity of neuronal ensembles has been proposed to play an important role in cognit...
Groups of neurons tend to synchronize in distinct frequency bands. Within a given frequency band, sy...
Selective visual attention is subserved by selective neuronal synchronization, entailing precise orc...
Brain signals often show rhythmic activity in the so-called gamma range (30-80 Hz), whose magnitude ...
Neurons receive a vast number of synaptic inputs at the same time. To successfully process a relevan...
SummaryBackgroundIt is widely held that single cells in anterior cingulate and lateral prefrontal co...
Extra-cellular voltage fluctuations (local field potentials; LFPs) reflecting neural mass action are...
SummarySelective visual attention is subserved by selective neuronal synchronization, entailing prec...
Selective visual attention is subserved by selective neuronal synchronization, entailing precise orc...
The local field potential (LFP), comprised of low-frequency extra-cellular voltage fluctuations, has...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
Oscillatory brain activity is attracting increasing interest in cognitive neuroscience. Numerous EEG...