The folding of the cortical surface of the human brain varies dramatically from person to person. However, the folding pattern is not arbitrary. The cortical folds (also called “sulci”) often serve as landmarks for referencing brain locations, and the most pronounced sulci have names that are well established in the neuroanatomical literature. In this paper, we will present a method that both automatically detects and attributes neuroanatomical names to these folds using image analysis methods applied to magnetic resonance data of human brains. More precisely, we subdivide each fold into a number of substructures which we call sulcal basins, and attach labels to these basins. These sulcal basins form a complete parcellation of the cortical ...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
A data-driven technique is presented for automatically learn-ing cortical folding patterns from MR b...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
Human brain mapping aims at establishing correspondences between brain function and brain anatomy. O...
Human brain mapping aims at establishing correspondences between brain function and brain anatomy. O...
Abstract. Registration and delineation of anatomical features in MRI of the hu-man brain play an imp...
International audienceBrain imaging provides a wealth of information that computers can explore at a...
The folding pattern of the cerebral cortex and its relation to functional areas is notoriously varia...
The folding pattern of the cerebral cortex and its relation to functional areas is notoriously varia...
The human cortex is folded into a pattern of well-defined outward folds called gyri and buried inwar...
International audienceThe extreme variability of the folding pattern of the human cortex makes the r...
Human brain MRI morphometry has largely been restricted to volumes of segmented regions. Features su...
Abstract. The variability in cortical morphology across subjects makes it difficult to develop a gen...
International audienceMany studies dealing with the human brain use the spatial coordinate system of...
International audienceThe alignment and normalization of individual brain structures is a prerequisi...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
A data-driven technique is presented for automatically learn-ing cortical folding patterns from MR b...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
Human brain mapping aims at establishing correspondences between brain function and brain anatomy. O...
Human brain mapping aims at establishing correspondences between brain function and brain anatomy. O...
Abstract. Registration and delineation of anatomical features in MRI of the hu-man brain play an imp...
International audienceBrain imaging provides a wealth of information that computers can explore at a...
The folding pattern of the cerebral cortex and its relation to functional areas is notoriously varia...
The folding pattern of the cerebral cortex and its relation to functional areas is notoriously varia...
The human cortex is folded into a pattern of well-defined outward folds called gyri and buried inwar...
International audienceThe extreme variability of the folding pattern of the human cortex makes the r...
Human brain MRI morphometry has largely been restricted to volumes of segmented regions. Features su...
Abstract. The variability in cortical morphology across subjects makes it difficult to develop a gen...
International audienceMany studies dealing with the human brain use the spatial coordinate system of...
International audienceThe alignment and normalization of individual brain structures is a prerequisi...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
A data-driven technique is presented for automatically learn-ing cortical folding patterns from MR b...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...