We have previously shown that some visual motion areas can be specifically recruited by auditory motion processing in blindfolded sighted subjects [Poirier, C., Collignon, O., De Volder, A.G., Renier, L., Vanlierde, A., Tranduy, D., Scheiber, C., 2005. Specific activation of V5 brain area by auditory motion processing: an fMRI study. Brain Res. Cogn. Brain Res. 25, 650-658]. The present fMRI study investigated whether auditory motion processing may recruit the same brain areas in early blind subjects. The task consisted of simultaneously determining both the nature of a sound stimulus (pure tone or complex sound) and the presence or absence of its movement. When a movement was present, blind subjects had to identify its direction. Auditory ...
The study of the congenitally blind (CB) represents a unique opportunity to explore experience-depen...
Comparing early- and late-onset blindness in individuals offers a unique model for studying the infl...
Using functional magnetic resonance imaging, we found that cortical visual motion areaMT!/V5 respond...
Previous neuroimaging studies devoted to auditory motion processing have shown the involvement of a ...
The extrastriate occipital structure hMT+/V5 is classically considered to implement motion processin...
In sighted individuals, a portion of the middle occipito-temporal cortex (hMT+/V5) responds preferen...
The study of congenitally blind individuals has emerged as a unique model to explore the role experi...
A region in the middle occipito-temporal cortex (hMT+/V5), classically considered as purely visual, ...
The research presented in this thesis addresses the neural mechanisms of auditory motion processing ...
The middle temporal visual area (hMT+/V5) is a region of the extrastriate occipital cortex that cont...
A region in the middle occipito-temporal cortex (hMT+/V5) classically considered as purely visual, e...
Auditory spatial tasks induce functional activation in the occipital - visual - cortex of early blin...
hMT+/V5 is a region in the middle occipitotemporal cortex that responds preferentially to visual 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 occipito-temporal cortex that responds preferentially to visual mo...
The study of the congenitally blind (CB) represents a unique opportunity to explore experience-depen...
Comparing early- and late-onset blindness in individuals offers a unique model for studying the infl...
Using functional magnetic resonance imaging, we found that cortical visual motion areaMT!/V5 respond...
Previous neuroimaging studies devoted to auditory motion processing have shown the involvement of a ...
The extrastriate occipital structure hMT+/V5 is classically considered to implement motion processin...
In sighted individuals, a portion of the middle occipito-temporal cortex (hMT+/V5) responds preferen...
The study of congenitally blind individuals has emerged as a unique model to explore the role experi...
A region in the middle occipito-temporal cortex (hMT+/V5), classically considered as purely visual, ...
The research presented in this thesis addresses the neural mechanisms of auditory motion processing ...
The middle temporal visual area (hMT+/V5) is a region of the extrastriate occipital cortex that cont...
A region in the middle occipito-temporal cortex (hMT+/V5) classically considered as purely visual, e...
Auditory spatial tasks induce functional activation in the occipital - visual - cortex of early blin...
hMT+/V5 is a region in the middle occipitotemporal cortex that responds preferentially to visual 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 occipito-temporal cortex that responds preferentially to visual mo...
The study of the congenitally blind (CB) represents a unique opportunity to explore experience-depen...
Comparing early- and late-onset blindness in individuals offers a unique model for studying the infl...
Using functional magnetic resonance imaging, we found that cortical visual motion areaMT!/V5 respond...