Add to ORKGThe human brain is composed of two broadly symmetric cerebral hemispheres, with an abundance of reciprocal anatomical connections between homotopic locations. However, to date, studies of hemispheric symmetries have not identified correspondency precisely due to variable cortical folding patterns. Here we present a method to establish accurate correspondency using position on the unfolded cortical surface relative to gyral and sulcal landmarks. The landmark method is shown to outperform the method of reversing standard volume coordinates, and it is used to quantify the functional symmetry in resting fMRI data throughout the cortex. Resting brain activity was found to be maximally correlated with locations less than 1 cm away on the cortical...
Abstract. Inter-subject registration of cortical areas is necessary in functional imaging (fMRI) stu...
The primary visual cortex (V1) can be delineated both functionally by its topographic map of the vis...
AbstractHuman visual cortical fields (VCFs) vary in size and anatomical location across individual s...
<div><p>The human brain is composed of two broadly symmetric cerebral hemispheres, with an abundance...
The human brain is composed of two broadly symmetric cerebral hemispheres, with an abundance of reci...
The central question of the relationship between structure and function in the human brain is still ...
Understanding the anatomical and structural organization of the cerebral cortex is facilitated by su...
Deformable registration of cortical surfaces facilitates longitudinal and intergroup comparisons of ...
International audienceDeformable registration of cortical surfaces facilitates longitudinal and inte...
We report on surface-based analyses that enhance our understanding of human cortical organization, i...
Matching functional brain regions across individuals is a challenging task, largely due to the varia...
this work. Making conclusions about the functional neuroanatomical organiza-tion of the human brain ...
Visualization and mapping of function on the cortical surface is difficult because of its sulcal and...
We report on surface-based analyses that enhance our understanding of human cortical organization, i...
Structural asymmetry varies across individuals, brain regions, and metrics of cortical organization....
Abstract. Inter-subject registration of cortical areas is necessary in functional imaging (fMRI) stu...
The primary visual cortex (V1) can be delineated both functionally by its topographic map of the vis...
AbstractHuman visual cortical fields (VCFs) vary in size and anatomical location across individual s...
<div><p>The human brain is composed of two broadly symmetric cerebral hemispheres, with an abundance...
The human brain is composed of two broadly symmetric cerebral hemispheres, with an abundance of reci...
The central question of the relationship between structure and function in the human brain is still ...
Understanding the anatomical and structural organization of the cerebral cortex is facilitated by su...
Deformable registration of cortical surfaces facilitates longitudinal and intergroup comparisons of ...
International audienceDeformable registration of cortical surfaces facilitates longitudinal and inte...
We report on surface-based analyses that enhance our understanding of human cortical organization, i...
Matching functional brain regions across individuals is a challenging task, largely due to the varia...
this work. Making conclusions about the functional neuroanatomical organiza-tion of the human brain ...
Visualization and mapping of function on the cortical surface is difficult because of its sulcal and...
We report on surface-based analyses that enhance our understanding of human cortical organization, i...
Structural asymmetry varies across individuals, brain regions, and metrics of cortical organization....
Abstract. Inter-subject registration of cortical areas is necessary in functional imaging (fMRI) stu...
The primary visual cortex (V1) can be delineated both functionally by its topographic map of the vis...
AbstractHuman visual cortical fields (VCFs) vary in size and anatomical location across individual s...