Add to ORKGV5/MT complex responds selectively to perception of optic flow (Morrone et al., Nature Neurosci , 2001). Since similarities exist between visual and tactile perception, we hypothesized that tactile flow might also rely on V5/MT response. We and others have shown recently that visual extrastriate cortical areas respond both during visual and tactile recognition of objects, indicating that these regions are organized in a supramodal fashion. In this study, we measured neural response evoked during visual and tactile perception of coherently moving dot patterns to test the hypothesis that V5/MT may be supramodally organized and may respond also to tactile stimulation
Recently, fMRI and MEG studies have confirmed that a ventrolateral somatosensory pathway and occipit...
We investigated whether the topographically organized, category-related patterns of neural response ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
It is widely accepted [Morrone et al. Nature Neuroscience, 2000] that particular cortical areas like...
We report results of a pilot study using functional magnetic resonance imaging aimed at determining...
We investigated whether the visual hMT+ cortex plays a role in supramodal representation of sensory ...
Previous reports of tactile responses in human visual area MT/V5 have used complex stimuli, such as ...
We investigated whether the visual hMT1 cortex plays a role in supramodal representation of sensory ...
During the research program of my Doctorate Course, we investigated whether the visual hMT+ complex ...
The macaque V5/MT complex comprises several sub-regions but little is known of their human homologue...
A functional magnetic resonance imaging (fMRI) study was conducted during which seven subjects carri...
Abstract: A functional magnetic resonance imaging (fMRI) study was conducted during which seven subj...
The continuously changing optic flow on the retina provides information about direction of heading a...
There is ongoing debate regarding the extent to which human cortices are specialized for processing ...
We investigated to which extent the discrimination of tactile patterns and vibrotactile frequencies ...
Recently, fMRI and MEG studies have confirmed that a ventrolateral somatosensory pathway and occipit...
We investigated whether the topographically organized, category-related patterns of neural response ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
It is widely accepted [Morrone et al. Nature Neuroscience, 2000] that particular cortical areas like...
We report results of a pilot study using functional magnetic resonance imaging aimed at determining...
We investigated whether the visual hMT+ cortex plays a role in supramodal representation of sensory ...
Previous reports of tactile responses in human visual area MT/V5 have used complex stimuli, such as ...
We investigated whether the visual hMT1 cortex plays a role in supramodal representation of sensory ...
During the research program of my Doctorate Course, we investigated whether the visual hMT+ complex ...
The macaque V5/MT complex comprises several sub-regions but little is known of their human homologue...
A functional magnetic resonance imaging (fMRI) study was conducted during which seven subjects carri...
Abstract: A functional magnetic resonance imaging (fMRI) study was conducted during which seven subj...
The continuously changing optic flow on the retina provides information about direction of heading a...
There is ongoing debate regarding the extent to which human cortices are specialized for processing ...
We investigated to which extent the discrimination of tactile patterns and vibrotactile frequencies ...
Recently, fMRI and MEG studies have confirmed that a ventrolateral somatosensory pathway and occipit...
We investigated whether the topographically organized, category-related patterns of neural response ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...