SummaryIn 1918, Gordon Holmes combined observations of visual-field scotomas across brain-lesioned soldiers to produce a schematic map of the projection of the visual field upon the striate cortex [1]. One limit to the precision of his result, and the mapping of anatomy to retinotopy generally, is the substantial individual variation in the size [2, 3], volumetric position [4], and cortical magnification [5] of area V1. When viewed within the context of the curvature of the cortical surface, however, the boundaries of striate cortex fall at a consistent location across individuals [6]. We asked whether the surface topology of the human brain can be used to accurately predict the internal, retinotopic function of striate cortex as well. We u...
†Some of these results were presented as poster 580.18/SS17 at the November 2010 Society for Neurosc...
How much of the functional organization of our visual system is inherited? Here we tested the herita...
The cerebral cortex of mammals comprises a series of topographic maps, forming sensory and motor ar...
Several domains of neuroscience offer map-like models that link location on the cortical surface to ...
The localization of visual areas in the human cortex is typically based on mapping the retinotopic o...
The primary visual cortex (V1) can be delineated both functionally by its topographic map of the vis...
International audienceIntroduction. We used high-field (3T) functional magnetic resonance imaging (f...
SummaryNeurons in the primary visual cortex of mammals form an orderly representation of the visual ...
AbstractHuman visual cortical fields (VCFs) vary in size and anatomical location across individual s...
Cytoarchitectonic maps of human striate and extrastriate visual cortex based upon post-mortem brains...
Neurons in the primary visual cortex of mammals form an orderly representation of the visual field. ...
Early visual areas can be defined using fMRI on the basis of their retinotopic organisation. Recentl...
We experience the visual world as phenomenally invariant to eye position, but almost all cortical ma...
AbstractA quarter-century ago visual neuroscientists had little information about the number and org...
Contains fulltext : 190203.pdf (Publisher’s version ) (Open Access)The cortical vi...
†Some of these results were presented as poster 580.18/SS17 at the November 2010 Society for Neurosc...
How much of the functional organization of our visual system is inherited? Here we tested the herita...
The cerebral cortex of mammals comprises a series of topographic maps, forming sensory and motor ar...
Several domains of neuroscience offer map-like models that link location on the cortical surface to ...
The localization of visual areas in the human cortex is typically based on mapping the retinotopic o...
The primary visual cortex (V1) can be delineated both functionally by its topographic map of the vis...
International audienceIntroduction. We used high-field (3T) functional magnetic resonance imaging (f...
SummaryNeurons in the primary visual cortex of mammals form an orderly representation of the visual ...
AbstractHuman visual cortical fields (VCFs) vary in size and anatomical location across individual s...
Cytoarchitectonic maps of human striate and extrastriate visual cortex based upon post-mortem brains...
Neurons in the primary visual cortex of mammals form an orderly representation of the visual field. ...
Early visual areas can be defined using fMRI on the basis of their retinotopic organisation. Recentl...
We experience the visual world as phenomenally invariant to eye position, but almost all cortical ma...
AbstractA quarter-century ago visual neuroscientists had little information about the number and org...
Contains fulltext : 190203.pdf (Publisher’s version ) (Open Access)The cortical vi...
†Some of these results were presented as poster 580.18/SS17 at the November 2010 Society for Neurosc...
How much of the functional organization of our visual system is inherited? Here we tested the herita...
The cerebral cortex of mammals comprises a series of topographic maps, forming sensory and motor ar...