The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural motion discrimination in both sighted and congenitally blind individuals, suggesting a supramodal organization of this area. Specifically, non-visual motion processing has been found to activate the more anterior portion of the hMT+. In the present study, repetitive transcranial magnetic stimulation (rTMS) was used to determine whether this more anterior portion of hMT+ truly plays a functional role in tactile motion processing. Sixteen blindfolded, young, healthy volunteers were asked to detect changes in the rotation velocity of a random Braille-like dot pattern by using the index or middle finger of their right hand. rTMS was applied for 600...
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...
During the research program of my Doctorate Course, we investigated whether the visual hMT+ complex ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
none7noBrain functional and psychophysical studies have clearly demonstrated that visual motion perc...
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 motion-sensitive middle temporal cortex (hMT+ complex) responds also to non-visual motion stimul...
Human middle temporal complex (hMT+) responds also to the perception of non-visual motion in both si...
Human middle temporal complex (hMT+) responds also to the perception of non-visual motion in both si...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
We investigated whether the visual hMT+ cortex plays a role in supramodal representation of sensory ...
We investigated whether the visual hMT1 cortex plays a role in supramodal representation of sensory ...
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...
During the research program of my Doctorate Course, we investigated whether the visual hMT+ complex ...
The visual motion-responsive middle temporal complex (hMT+) is activated during tactile and aural mo...
none7noBrain functional and psychophysical studies have clearly demonstrated that visual motion perc...
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 motion-sensitive middle temporal cortex (hMT+ complex) responds also to non-visual motion stimul...
Human middle temporal complex (hMT+) responds also to the perception of non-visual motion in both si...
Human middle temporal complex (hMT+) responds also to the perception of non-visual motion in both si...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
We investigated whether the visual hMT+ cortex plays a role in supramodal representation of sensory ...
We investigated whether the visual hMT1 cortex plays a role in supramodal representation of sensory ...
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...
During the research program of my Doctorate Course, we investigated whether the visual hMT+ complex ...