The macaque V5/MT complex comprises several sub-regions but little is known of their human homologues. We examined human V5/MT with fMRI in terms of specificity to optic flow stimuli, a key characteristic of macaque MST. Stimuli were large fields of moving dots, forming coherent global flow patterns. Random motion was used as a control. Retinotopic mapping was also conducted. The previously suggested existence of at least two distinct sub-regions, MT and MST, within the V5/MT complex was confirmed. Human MT is activated about equally by all moving dot patterns, including random motion, suggesting that it has little sensitivity to global flow structure. As previously described, this region shows strong signs of retinotopic organization and i...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Extrastriate visual area V5/MT in primates is defined both structurally by myeloarchitecture and fun...
Visual area MT is a model of choice in primate neurophysiological and human imaging research of visu...
The macaque V5/MT complex comprises several sub-regions but little is known of their human homologue...
The continuously changing optic flow on the retina provides information about direction of heading a...
A functional hallmark of cortical neurons sensitive to visual motion is the dependency of their firi...
In humans, several neuroimaging studies have demonstrated that passive viewing of optic flow stimuli...
Contains fulltext : 50364.pdf (publisher's version ) (Open Access)Recent neuroimag...
International audienceThe cortical network that processes visual cues to self-motion was characteriz...
The extraction of optic flow cues is fundamental for successful locomotion. During forward motion, t...
In 1971 people defined that an area in macaque’s brain in the depths of the superior temporal sulcus...
The present report reviews a series of functional magnetic resonance imaging (fMRI) activation studi...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Extrastriate visual area V5/MT in primates is defined both structurally by myeloarchitecture and fun...
Visual area MT is a model of choice in primate neurophysiological and human imaging research of visu...
The macaque V5/MT complex comprises several sub-regions but little is known of their human homologue...
The continuously changing optic flow on the retina provides information about direction of heading a...
A functional hallmark of cortical neurons sensitive to visual motion is the dependency of their firi...
In humans, several neuroimaging studies have demonstrated that passive viewing of optic flow stimuli...
Contains fulltext : 50364.pdf (publisher's version ) (Open Access)Recent neuroimag...
International audienceThe cortical network that processes visual cues to self-motion was characteriz...
The extraction of optic flow cues is fundamental for successful locomotion. During forward motion, t...
In 1971 people defined that an area in macaque’s brain in the depths of the superior temporal sulcus...
The present report reviews a series of functional magnetic resonance imaging (fMRI) activation studi...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Cortical-surface-based functional Magnetic Resonance Imaging mapping techniques and wide-field retin...
Extrastriate visual area V5/MT in primates is defined both structurally by myeloarchitecture and fun...
Visual area MT is a model of choice in primate neurophysiological and human imaging research of visu...