Add to ORKGThesis (Ph.D.)--University of Washington, 2022The human brain is characterized by a hierarchical system of organization that high-lights its complexity at various scales within numerous structural and functional contexts. One mode of hierarchical patterning captures the flow of information through the brain from the sensory cortices, to associative regions, and finally to more integrative cortical areas that underpin complex cognition. Another mode captures increasingly complex physical organization, transitioning from raw genetic material to complex neuronal structure. In the first part of this work, we discuss methods for mapping the human cortex in order to identify and delineate putative cortical areas characterized by unique, homogeno...
The following properties of cortical organization are now nearly universally accepted: 1. The cerebr...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
Recent advances in mapping cortical areas in the human brain provide a basis for investigating the s...
The vast net of fibres within and underneath the cortex is optimised to support the convergence of d...
Recent research in the neurosciences has revealed a wealth of new information about the structural o...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
AbstractHuman higher cognition arises from the main tertiary association cortices including the fron...
Building a structural connectome involves (1) subdivision of the brain’s grey matter into functio-an...
Brodmann has pioneered structural brain mapping. He considered functional and pathological criteria ...
Every thought, every idea, every memory, every decision, and every action we have to make, arise fro...
Local functional homogeneity of the human cortex indicates the boundaries between functionally heter...
One way to understand the topography of the cerebral cortex is that “like attracts like.” The cortex...
Abstract. The analysis of complex networks has revealed patterns of organization in a variety of nat...
The topological organization of the cerebral cortex provides hierarchical axes, namely gradients, wh...
The following properties of cortical organization are now nearly universally accepted: 1. The cerebr...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...
Recent advances in mapping cortical areas in the human brain provide a basis for investigating the s...
The vast net of fibres within and underneath the cortex is optimised to support the convergence of d...
Recent research in the neurosciences has revealed a wealth of new information about the structural o...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
AbstractHuman higher cognition arises from the main tertiary association cortices including the fron...
Building a structural connectome involves (1) subdivision of the brain’s grey matter into functio-an...
Brodmann has pioneered structural brain mapping. He considered functional and pathological criteria ...
Every thought, every idea, every memory, every decision, and every action we have to make, arise fro...
Local functional homogeneity of the human cortex indicates the boundaries between functionally heter...
One way to understand the topography of the cerebral cortex is that “like attracts like.” The cortex...
Abstract. The analysis of complex networks has revealed patterns of organization in a variety of nat...
The topological organization of the cerebral cortex provides hierarchical axes, namely gradients, wh...
The following properties of cortical organization are now nearly universally accepted: 1. The cerebr...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
Understanding the amazingly complex human cerebral cortex requires a map (or parcellation) of its ma...