Add to ORKGThe critical time windows of the contribution of V1 and V5/MT to visual awareness of moving visual stimuli were compared by administering transcranial magnetic stimulation (TMS) to V1 or V5/ MT in various time intervals from stimulus offset during perfor-mance of a simple motion detection task. Our results show a double dissociation in which the critical period of V1 both predates and postdates that of V5/MT, and where stimulation of either V1 at V5/ MT’s critical period or V5/MT at V1’s critical period does not impair performance. These findings demonstrate the importance of back-projections from V5/MT to V1 in awareness of real motion stimuli
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
AbstractCortical areas involved in sensory analysis are also believed to be involved in short-term s...
A key question in understanding visual awareness is whether any single cortical area is indispensabl...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
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...
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...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
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...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
AbstractCortical areas involved in sensory analysis are also believed to be involved in short-term s...
A key question in understanding visual awareness is whether any single cortical area is indispensabl...
Motion information can reach V5/MT through two parallel routes: one conveying information at early l...
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...
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...
Functional imaging has demonstrated the specific involvement of the human middle-temporal complex (h...
none6siMotion information can reach V5/MT through two parallel routes: one conveying information at ...
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...
Evidence from human and primate studies suggests that fast visual processing may utilize signals pro...
AbstractCortical areas involved in sensory analysis are also believed to be involved in short-term s...
A key question in understanding visual awareness is whether any single cortical area is indispensabl...