Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the mechanisms supporting selective gating. We here aimed at identifying the anatomical pathways in humans supporting the top-down control of neuronal synchronization. We first collected diffusion imaging data using magnetic resonance imaging to identify the medial branch of the superior longitudinal fasciculus (SLF), a white-matter tract connecting frontal control areas to parietal regions. We then quantified the modulations in oscillatory activity using magnetoencephalography in the same subjects performing a spatial attention task. We found that subjects with a stronger SLF volume in the right compared to the left hemisphere (or vice versa) a...
Previous neuropsychological and functional imaging studies have suggested that the right hemisphere ...
International audienceCorrelational evidence in non-human primates has reported increases of fronto-...
Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attenti...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Contains fulltext : 149186.pdf (publisher's version ) (Open Access
SummaryOscillatory neuronal synchronization, within and between cortical areas, may mediate the sele...
Visuospatial attention prioritizes processing of attended visual stimuli. It is characterized by lat...
Oscillatory neuronal synchronization, within and between cortical areas, may mediate the selection o...
The capacity of visual attention determines how many visual objects may be perceived at any moment. ...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Contains fulltext : 87832.pdf (publisher's version ) (Open Access)Current models o...
Previous neuropsychological and functional imaging studies have suggested that the right hemisphere ...
International audienceCorrelational evidence in non-human primates has reported increases of fronto-...
Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attenti...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Neuronal synchronization reflected by oscillatory brain activity has been strongly implicated in the...
Contains fulltext : 149186.pdf (publisher's version ) (Open Access
SummaryOscillatory neuronal synchronization, within and between cortical areas, may mediate the sele...
Visuospatial attention prioritizes processing of attended visual stimuli. It is characterized by lat...
Oscillatory neuronal synchronization, within and between cortical areas, may mediate the selection o...
The capacity of visual attention determines how many visual objects may be perceived at any moment. ...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Considerable evidence suggests that, on a group level, human visuospatial attention is asymmetricall...
Contains fulltext : 87832.pdf (publisher's version ) (Open Access)Current models o...
Previous neuropsychological and functional imaging studies have suggested that the right hemisphere ...
International audienceCorrelational evidence in non-human primates has reported increases of fronto-...
Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attenti...