Functional imaging has demonstrated the specific involvement of the human middle–temporal complex (hMT/V5+) during processing of moving stimuli. Some studies applied transcranial magnetic stimulation (TMS) to investigate the causal relevance of hMT/V5+ for motion perception. Although the studies used similar visual stimuli and TMS parameters, the critical time point of functionally relevant hMT/V5+ activity differed by 100 ms and more. The present study aimed to elucidate further the temporal characteristics of motion processing in hMT/V5+ by investigating all critical time windows currently debated in the literature. In contrast to previous studies, we used TMS neuronavigation based on individual fMRI results of five participants to tar...
AbstractStudies in primate physiology and human functional neuroimaging have convincingly shown that...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
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...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
The critical time windows of the contribution of V1 and V5/MT to visual awareness of moving visual s...
To intercept a fast target at destination, hand movements must be centrally triggered ahead of targe...
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...
AbstractStudies in primate physiology and human functional neuroimaging have convincingly shown that...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
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...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
The critical time windows of the contribution of V1 and V5/MT to visual awareness of moving visual s...
To intercept a fast target at destination, hand movements must be centrally triggered ahead of targe...
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...
AbstractStudies in primate physiology and human functional neuroimaging have convincingly shown that...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception ...