Using functional magnetic resonance imaging, we found that cortical visual motion areaMT!/V5 responded to auditory motion in two rare subjects who had been blind since early childhood and whose vision was partially recovered in adulthood. Visually normal control subjects did not show similar auditory responses. These auditory responses in MT! were specific to motion compared with other complex auditory stimuli including frequency sweeps and speech. Thus, MT! developedmotion-specific responses to nonvisual input, suggesting that cross-modal plasticity can be influenced by the normal functional specialization of a cortical region. Regarding sight recovery after early blindness, our results further demonstrate that cross-modal responses coexis...
hMT+/V5 is a region in the middle occipitotemporal cortex that responds preferentially to visual mot...
The middle temporal visual area (hMT+/V5) is a region of the extrastriate occipital cortex that cont...
The extrastriate occipital structure hMT+/V5 is classically considered to implement motion processin...
Using functional magnetic resonance imaging, we found that cortical visual motion area MT+/V5 respon...
Cross-modal plasticity refers to the recruitment of cortical regions involved in the processing of o...
A number of studies have demonstrated cross-modal responses within visual cortex as a result of blin...
SummaryThe middle temporal complex (MT/MST) is a brain region specialized for the perception of moti...
Motion area V5/MT+ shows a variety of characteristic visual responses, often linked to perception, w...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
The research presented in this thesis addresses the neural mechanisms of auditory motion processing ...
The research presented in this thesis investigates the cross-modal representation of motion informat...
Summary: We focused on the impact of early visual deprivation on auditory motion processing. Studyin...
hMT+/V5 is a region in the middle occipito-temporal cortex that responds preferentially to visual mo...
We have previously shown that some visual motion areas can be specifically recruited by auditory mot...
hMT+/V5 is a region in the middle occipito-temporal cortex that responds preferentially to visual mo...
hMT+/V5 is a region in the middle occipitotemporal cortex that responds preferentially to visual mot...
The middle temporal visual area (hMT+/V5) is a region of the extrastriate occipital cortex that cont...
The extrastriate occipital structure hMT+/V5 is classically considered to implement motion processin...
Using functional magnetic resonance imaging, we found that cortical visual motion area MT+/V5 respon...
Cross-modal plasticity refers to the recruitment of cortical regions involved in the processing of o...
A number of studies have demonstrated cross-modal responses within visual cortex as a result of blin...
SummaryThe middle temporal complex (MT/MST) is a brain region specialized for the perception of moti...
Motion area V5/MT+ shows a variety of characteristic visual responses, often linked to perception, w...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
The research presented in this thesis addresses the neural mechanisms of auditory motion processing ...
The research presented in this thesis investigates the cross-modal representation of motion informat...
Summary: We focused on the impact of early visual deprivation on auditory motion processing. Studyin...
hMT+/V5 is a region in the middle occipito-temporal cortex that responds preferentially to visual mo...
We have previously shown that some visual motion areas can be specifically recruited by auditory mot...
hMT+/V5 is a region in the middle occipito-temporal cortex that responds preferentially to visual mo...
hMT+/V5 is a region in the middle occipitotemporal cortex that responds preferentially to visual mot...
The middle temporal visual area (hMT+/V5) is a region of the extrastriate occipital cortex that cont...
The extrastriate occipital structure hMT+/V5 is classically considered to implement motion processin...