Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise macroscopic brain connectivity using a network of 'nodes' and 'edges'--functionally distinct brain regions and the connections between them. This is an approach that allows a deep understanding of brain dynamics and how they relate to brain circuitry. This approach, however, ignores key features of anatomical connections, such as spatial arrangement and topographic mappings. In this article, we suggest an alternative to this paradigm. We propose that connection topographies can inform us about brain networks in ways that are complementary to the concepts of 'nodes' and 'edges'. We also show that current neuroimaging technology is capable of reve...
Fifteen years ago, Passingham and colleagues proposed that brain areas can be described in terms of ...
Despite the attention attracted by "connectomics", one can lose sight of the very real questions con...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
The human brain is a complex, interconnected network par excellence. Accurate and informative mappin...
The human connectome is a topologically complex, spatially embedded network. While its topological p...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
Mapping and examining the wiring pattern of neural systems is a fundamental pillar of neuroscience. ...
We introduce comparative connectomics, the quantitative study of cross-species commonalities and var...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Brain function depends on efficient processing and integration of information within a complex netwo...
The human brain atlases that allow correlating brain anatomy with psychological and cognitive functi...
The human brain atlases that allow correlating brain anatomy with psychological and cognitive functi...
Understanding the mechanisms of neural communication in large-scale brain networks remains a major g...
Fifteen years ago, Passingham and colleagues proposed that brain areas can be described in terms of ...
Despite the attention attracted by "connectomics", one can lose sight of the very real questions con...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
The human brain is a complex, interconnected network par excellence. Accurate and informative mappin...
The human connectome is a topologically complex, spatially embedded network. While its topological p...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
Mapping and examining the wiring pattern of neural systems is a fundamental pillar of neuroscience. ...
We introduce comparative connectomics, the quantitative study of cross-species commonalities and var...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Brain function depends on efficient processing and integration of information within a complex netwo...
The human brain atlases that allow correlating brain anatomy with psychological and cognitive functi...
The human brain atlases that allow correlating brain anatomy with psychological and cognitive functi...
Understanding the mechanisms of neural communication in large-scale brain networks remains a major g...
Fifteen years ago, Passingham and colleagues proposed that brain areas can be described in terms of ...
Despite the attention attracted by "connectomics", one can lose sight of the very real questions con...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...