AbstractWe mapped ocular dominance columns (ODCs) in normal human subjects using high-field (4 T) functional magnetic resonance imaging (fMRI) with a segmented echo planar imaging technique and an in-plane resolution of 0.47 × 0.47 mm2. The differential responses to left or right eye stimulation could be reliably resolved in anatomically well-defined sections of V1. The orientation and width (∼1 mm) of mapped ODC stripes conformed to those previously revealed in postmortem brains stained with cytochrome oxidase. In addition, we showed that mapped ODC patterns could be largely reproduced in different experiments conducted within the same experimental session or over different sessions. Our results demonstrate that high-field fMRI can be used...
In the absence of an optic chiasm, visual input to the right eye is represented in primary visual co...
In the rhesus monkey, Inputs from the left and right eye laminae of the lateral geniculate nucleus t...
Columns and layers are fundamental organizational units of the brain. Well known examples of cortica...
AbstractWe mapped ocular dominance columns (ODCs) in normal human subjects using high-field (4 T) fu...
Cells in the mammalian brain tend to be grouped together according to their afferent and efferent co...
Background: The ability to reliably and reproducibly map high resolution functional architecture usi...
A recent hemodynamic model is extended and applied to simulate and explore the feasibility of detect...
Recent studies have demonstrated the ability of classification algorithms applied to fMRI data to de...
The capability of non-invasively mapping neuronal excitation and inhibition at the columnar level in...
Current thinking suggests that specialised modules process visual information in a hierarchical mann...
In this work, we exploited the superior capability of high-resolution functional magnetic resonance ...
Previous attempts at characterizing the spatial specificity of the blood oxygenation level dependent...
Since the discovery of the BOLD effect, detection of ocular dominance columns (ODCs) in primary visu...
The occipital lobes were obtained after death from six adult subjects with monocular visual loss. Fl...
A recent hemodynamic model is extended and applied to simulate and explore the feasibility of detect...
In the absence of an optic chiasm, visual input to the right eye is represented in primary visual co...
In the rhesus monkey, Inputs from the left and right eye laminae of the lateral geniculate nucleus t...
Columns and layers are fundamental organizational units of the brain. Well known examples of cortica...
AbstractWe mapped ocular dominance columns (ODCs) in normal human subjects using high-field (4 T) fu...
Cells in the mammalian brain tend to be grouped together according to their afferent and efferent co...
Background: The ability to reliably and reproducibly map high resolution functional architecture usi...
A recent hemodynamic model is extended and applied to simulate and explore the feasibility of detect...
Recent studies have demonstrated the ability of classification algorithms applied to fMRI data to de...
The capability of non-invasively mapping neuronal excitation and inhibition at the columnar level in...
Current thinking suggests that specialised modules process visual information in a hierarchical mann...
In this work, we exploited the superior capability of high-resolution functional magnetic resonance ...
Previous attempts at characterizing the spatial specificity of the blood oxygenation level dependent...
Since the discovery of the BOLD effect, detection of ocular dominance columns (ODCs) in primary visu...
The occipital lobes were obtained after death from six adult subjects with monocular visual loss. Fl...
A recent hemodynamic model is extended and applied to simulate and explore the feasibility of detect...
In the absence of an optic chiasm, visual input to the right eye is represented in primary visual co...
In the rhesus monkey, Inputs from the left and right eye laminae of the lateral geniculate nucleus t...
Columns and layers are fundamental organizational units of the brain. Well known examples of cortica...