We used concurrent transcranial magnetic stimulation and functional MRI (TMS-fMRI) during a visuospatial cueing paradigm in humans, to study the causal role of the right angular gyrus (AG) as a source of attentional control. Our findings show that TMS over the right AG (high vs. low intensity) modulates neural responses interhemispherically, in a manner that varies dynamically with the current attentional condition. The behavioural impact of such TMS depended not only on the target hemifield but also on exogenous cue validity, facilitating spatial reorienting to invalidly cued right visual targets. On a neural level, right AG TMS had corresponding interhemispheric effects in the left AG and left retinotopic cortex, including area V1. We con...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
Regions of frontal and posterior parietal cortex are known to control the allocation of spatial att...
We used concurrent transcranial magnetic stimulation and functional MRI (TMS-fMRI) during a visuospa...
Visuospatial attention is essential for successful interactions with the environment. It has been sh...
A balance of mutual tonic inhibition between bi-hemispheric posterior parietal cortices is believed ...
Adaptive behavior relies on combining bottom-up sensory inputs with top-down control signals to guid...
Combining transcranial magnetic stimulation (TMS) with concurrent functional magnetic resonance imag...
Combining transcranial magnetic stimulation (TMS) with concurrent functional magnetic resonance imag...
SummaryBackgroundRegions in human frontal cortex may have modulatory top-down influences on retinoto...
AbstractTheoretical models of visual neglect and extinction entail claims about the normal functioni...
Theoretical models of visual neglect and extinction entail claims about the normal functioning of at...
Visual attention can be shifted in space without moving the eyes. Amplitude decrease of rhythmical b...
Lesion studies in neglect patients have inspired two competing models of spatial attention control, ...
Concurrent TMS–fMRI reveals dynamic interhemispheric influences of the right parietal cortex during ...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
Regions of frontal and posterior parietal cortex are known to control the allocation of spatial att...
We used concurrent transcranial magnetic stimulation and functional MRI (TMS-fMRI) during a visuospa...
Visuospatial attention is essential for successful interactions with the environment. It has been sh...
A balance of mutual tonic inhibition between bi-hemispheric posterior parietal cortices is believed ...
Adaptive behavior relies on combining bottom-up sensory inputs with top-down control signals to guid...
Combining transcranial magnetic stimulation (TMS) with concurrent functional magnetic resonance imag...
Combining transcranial magnetic stimulation (TMS) with concurrent functional magnetic resonance imag...
SummaryBackgroundRegions in human frontal cortex may have modulatory top-down influences on retinoto...
AbstractTheoretical models of visual neglect and extinction entail claims about the normal functioni...
Theoretical models of visual neglect and extinction entail claims about the normal functioning of at...
Visual attention can be shifted in space without moving the eyes. Amplitude decrease of rhythmical b...
Lesion studies in neglect patients have inspired two competing models of spatial attention control, ...
Concurrent TMS–fMRI reveals dynamic interhemispheric influences of the right parietal cortex during ...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
It has often been proposed that regions of the human parietal and/or frontal lobe may modulate activ...
Regions of frontal and posterior parietal cortex are known to control the allocation of spatial att...