Parameterizable consensus connectomes from the Human Connectome Project: the Budapest Reference Connectome Server v3.0 [PDF]
Cognitive Neurodynamics, 2016 Connections of the living human brain, on a macroscopic scale, can be mapped by a diffusion MR imaging based workflow. Since the same anatomic regions can be corresponded between distinct brains, one can compare the presence or the absence of the edges, connecting the very same two anatomic regions, among multiple cortices.
Csaba Kerepesi +4 more
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Changes of cortical gray matter volume during development: A Human Connectome Project study.
Journal of Neurophysiology, 2023 We assessed changes in gray matter volume of 35 cerebrocortical regions in a large sample of participants in the Human Connectome Project-Development (n=649, 6-21 y old, 299 males and 350 females).
P. Christova, A. Georgopoulos
semanticscholar +1 more source
Mapping hybrid functional-structural connectivity traits in the human connectome [PDF]
, 2018 One of the crucial questions in neuroscience is how a rich functional repertoire of brain states relates to its underlying structural organization. How to study the associations between these structural and functional layers is an open problem that ...
Amico, Enrico, Goñi, Joaquín
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Handedness measures for the Human Connectome Project: Implications for data analysis [PDF]
Laterality, 2020 AbstractOpen data initiatives such as the UK Biobank and Human Connectome Project provide researchers with access to neuroimaging, genetic, and other data for large samples of left-and right-handed participants, allowing for more robust investigations of handedness than ever before.
P. Thomas Schoenemann +3 more
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Tree representations of brain structural connectivity via persistent homology
Frontiers in Neuroscience, 2023 The brain structural connectome is generated by a collection of white matter fiber bundles constructed from diffusion weighted MRI (dMRI), acting as highways for neural activity.
Didong Li +3 more
doaj +1 more source
The topology of large Open Connectome networks for the human brain [PDF]
, 2016 The structural human connectome (i.e.\ the network of fiber connections in the brain) can be analyzed at ever finer spatial resolution thanks to advances in neuroimaging.
Gastner, Michael T., Ódor, Géza
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A morphospace of functional configuration to assess configural breadth based on brain functional networks [PDF]
, 2019 The best approach to quantify human brain functional reconfigurations in response to varying cognitive demands remains an unresolved topic in network neuroscience.
Abbas, Kausar +7 more
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Functional Geometry of Human Connectomes
Scientific Reports, 2019 Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges indicate the occurrence of fiber tracts between them, has enabled an objective graph-theoretic analysis of human connectomes.
Bosiljka Tadić +2 more
doaj +1 more source
Centralized and distributed cognitive task processing in the human connectome [PDF]
, 2018 A key question in modern neuroscience is how cognitive changes in a human brain can be quantified and captured by functional connectomes (FC) . A systematic approach to measure pairwise functional distance at different brain states is lacking. This would
Amico, Enrico +2 more
core +2 more sources
PPA: Principal parcellation analysis for brain connectomes and multiple traits
NeuroImage, 2023 Our understanding of the structure of the brain and its relationships with human traits is largely determined by how we represent the structural connectome. Standard practice divides the brain into regions of interest (ROIs) and represents the connectome
Rongjie Liu, Meng Li, David B. Dunson
doaj