Macroscopic cortical networks are important for cognitive function, but it remains challenging to construct anatomically plausible individual structural connectomes from human neuroimaging. We introduce a new technique for cortical network mapping based on inter-regional similarity of multiple morphometric parameters measured using multimodal MRI. In three cohorts (two human, one macaque), we find that the resulting morphometric similarity networks (MSNs) have a complex topological organization comprising modules and high-degree hubs. Human MSN modules recapitulate known cortical cytoarchitectonic divisions, and greater inter-regional morphometric similarity was associated with stronger inter-regional co-expression of genes enriched for neu...
Although single-subject morphological brain networks provide an important way for human connectome s...
Representing brain morphology as a network has the advantage that the regional morphol-ogy of ‘isola...
The cerebral cortex may be organized into anatomical genetic modules, communities of brain regions w...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
Morphometric similarity networks (MSNs) estimate organization of the cortex as a biologically meanin...
Non-invasive neuroimaging methods, such as MRI, provide a window into the structure of the mammalian...
Morphometric Similarity Networks (MSNs) estimate structural 'connectivity' as a biologically meaning...
The human brain comprises an efficient communication network, with its macroscale connectome organiz...
Representing brain morphology as a network has the advantage that the regional morphology of ‘isolat...
The morphology of anatomical brain regions can be affected by neurological disorders, including deme...
Representing brain morphology as a network has the advantage that the regional morphology of 'isolat...
The characterization of gray matter morphology of individual brains is an important issue in neurosc...
The human brain is a highly complex organ that integrates functionally specialised subunits. Underpi...
The past 25 years have seen great progress in parcellating the cerebral cortex into a mosaic of many...
Open Access via the OUP Agreement Funding Information: The author received financial support for pub...
Although single-subject morphological brain networks provide an important way for human connectome s...
Representing brain morphology as a network has the advantage that the regional morphol-ogy of ‘isola...
The cerebral cortex may be organized into anatomical genetic modules, communities of brain regions w...
Macroscopic cortical networks are important for cognitive function, but it remains challenging to co...
Morphometric similarity networks (MSNs) estimate organization of the cortex as a biologically meanin...
Non-invasive neuroimaging methods, such as MRI, provide a window into the structure of the mammalian...
Morphometric Similarity Networks (MSNs) estimate structural 'connectivity' as a biologically meaning...
The human brain comprises an efficient communication network, with its macroscale connectome organiz...
Representing brain morphology as a network has the advantage that the regional morphology of ‘isolat...
The morphology of anatomical brain regions can be affected by neurological disorders, including deme...
Representing brain morphology as a network has the advantage that the regional morphology of 'isolat...
The characterization of gray matter morphology of individual brains is an important issue in neurosc...
The human brain is a highly complex organ that integrates functionally specialised subunits. Underpi...
The past 25 years have seen great progress in parcellating the cerebral cortex into a mosaic of many...
Open Access via the OUP Agreement Funding Information: The author received financial support for pub...
Although single-subject morphological brain networks provide an important way for human connectome s...
Representing brain morphology as a network has the advantage that the regional morphol-ogy of ‘isola...
The cerebral cortex may be organized into anatomical genetic modules, communities of brain regions w...