Several published single case studies reveal a double dissociation between the effects of brain damage in separate extra-striate cortical visual areas on the perception of global visual motion defined by a difference in luminance (first-order motion) versus motion defined by a difference in contrast (second-order motion). In particular, the medial extrastriate cortical region V2/V3 seems to be crucial for the perception of first-order motion, but not for second-order, whereas a lateral and more anterior portion of the cortex close to the temporo-parieto-occipital junction (in the territory of the human motion area hV5/Mt(+)) seems to be essential only for the perception of second-order motion. In order to test the hypothesis of a functional...
The processing of motion in the primate brain is distributed across multiple regions of the cerebral...
Motion blindness (MB) or akinetopsia is the selective disturbance of visual motion perception while ...
Two subdivisions of human V5/MT+: one located posteriorly (MT/TO-1) and the other more anteriorly (M...
Several published single case studies reveal a double dissociation between the effects of brain dama...
We used a psychophysical task to measure sensitivity to motion direction in 50 stroke patients with ...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
The functional properties of motion selective areas in human visual cortex, including V3A, MT+, and ...
Lesions of area MT/V5 in monkeys and its presumed homologue, the motion area, in humans impair motio...
Functional neuroimaging in human subjects and single cell recordings in monkeys show that several ex...
Human neuropsychological and neuroimaging studies have raised the possibility that different attribu...
Abstract: The neural mechanisms underlying the integration and segregation of motion signals are of-...
Functional neuroimaging in human subjects and single cell recordings in monkeys show that several ex...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Our conscious perceptual experience relies on a hierarchical process involving integration of low-le...
YesTwo subdivisions of human V5/MT+; one located posteriorly (MT/TO-1), the other more anteriorly (M...
The processing of motion in the primate brain is distributed across multiple regions of the cerebral...
Motion blindness (MB) or akinetopsia is the selective disturbance of visual motion perception while ...
Two subdivisions of human V5/MT+: one located posteriorly (MT/TO-1) and the other more anteriorly (M...
Several published single case studies reveal a double dissociation between the effects of brain dama...
We used a psychophysical task to measure sensitivity to motion direction in 50 stroke patients with ...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
The functional properties of motion selective areas in human visual cortex, including V3A, MT+, and ...
Lesions of area MT/V5 in monkeys and its presumed homologue, the motion area, in humans impair motio...
Functional neuroimaging in human subjects and single cell recordings in monkeys show that several ex...
Human neuropsychological and neuroimaging studies have raised the possibility that different attribu...
Abstract: The neural mechanisms underlying the integration and segregation of motion signals are of-...
Functional neuroimaging in human subjects and single cell recordings in monkeys show that several ex...
The ability to detect the motion of objects is critical to survival, and understanding the cortical ...
Our conscious perceptual experience relies on a hierarchical process involving integration of low-le...
YesTwo subdivisions of human V5/MT+; one located posteriorly (MT/TO-1), the other more anteriorly (M...
The processing of motion in the primate brain is distributed across multiple regions of the cerebral...
Motion blindness (MB) or akinetopsia is the selective disturbance of visual motion perception while ...
Two subdivisions of human V5/MT+: one located posteriorly (MT/TO-1) and the other more anteriorly (M...