Brain functional and psychophysical studies have clearly demonstrated that visual motion perception relies on the activity of the middle temporal complex (hMT+). However, recent studies have shown that hMT+ seems to be also activated during tactile motion perception, suggesting that this visual extrastriate area is involved in the processing and integration of motion, irrespective of the sensorial modality. In the present study, we used repetitive transcranial magnetic stimulation (rTMS) to assess whether hMT+ plays a causal role in tactile motion processing. Blindfolded participants detected changes in the speed of a grid of tactile moving points with their finger (i.e. tactile modality). The experiment included three different conditions:...
Brain imaging studies in humans have revealed the existence of a visuo-tactile system, which matches...
To intercept a fast target at destination, hand movements must be centrally triggered ahead of targe...
Previous reports of tactile responses in human visual area MT/V5 have used complex stimuli, such as ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
Functional imaging has demonstrated the specific involvement of the human middle–temporal complex (h...
Functional imaging has demonstrated the specific involvement of the human middle–temporal complex (h...
The motion-sensitive middle temporal cortex (hMT+ complex) responds also to non-visual motion stimul...
Processing of motion and pattern has been extensively studied in the visual domain, but much less in...
Brain imaging studies in humans have revealed the existence of a visuo-tactile system, which matches...
To intercept a fast target at destination, hand movements must be centrally triggered ahead of targe...
Previous reports of tactile responses in human visual area MT/V5 have used complex stimuli, such as ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
Functional imaging has demonstrated the specific involvement of the human middle–temporal complex (h...
Functional imaging has demonstrated the specific involvement of the human middle–temporal complex (h...
The motion-sensitive middle temporal cortex (hMT+ complex) responds also to non-visual motion stimul...
Processing of motion and pattern has been extensively studied in the visual domain, but much less in...
Brain imaging studies in humans have revealed the existence of a visuo-tactile system, which matches...
To intercept a fast target at destination, hand movements must be centrally triggered ahead of targe...
Previous reports of tactile responses in human visual area MT/V5 have used complex stimuli, such as ...