In computational neuroimaging, brain parcellation methods subdivide the brain into individual regions that can be used to build a network to study its structure and function. Using anatomical or functional connectivity, hierarchical clustering methods aim to offer a meaningful parcellation of the brain at each level of granularity. However, some of these methods have been only applied to small regions and strongly depend on the similarity measure used to merge regions. The aim of this work is to present a robust whole-brain hierarchical parcellation that preserves the global structure of the network. Methods Brain regions are modeled as a random walk on the connectome. From this model, a Markov process is derived, where the different nodes ...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Nowadays, connectivity patterns of brain networks are of special interest, as they may reflect commu...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
A fundamental assumption in neuroscience is that brain function is constrained by its structural pro...
<div><p>A fundamental assumption in neuroscience is that brain function is constrained by its struct...
The human connectome is an intricate system of interconnected elements, providing the basis for inte...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
The macro connectome elucidates the pathways through which brain regions are structurally connected ...
The organization of the human brain remains elusive, yet is of great importance to the mechanisms of...
Building a structural connectome involves (1) subdivision of the brain’s grey matter into functio-an...
<p><b>(A)</b> The algorithm involves performing a hierarchical clustering analysis with all voxels i...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
The human brain is a complex network that shares and processes information by using the structural p...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Nowadays, connectivity patterns of brain networks are of special interest, as they may reflect commu...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
A fundamental assumption in neuroscience is that brain function is constrained by its structural pro...
<div><p>A fundamental assumption in neuroscience is that brain function is constrained by its struct...
The human connectome is an intricate system of interconnected elements, providing the basis for inte...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
The macro connectome elucidates the pathways through which brain regions are structurally connected ...
The organization of the human brain remains elusive, yet is of great importance to the mechanisms of...
Building a structural connectome involves (1) subdivision of the brain’s grey matter into functio-an...
<p><b>(A)</b> The algorithm involves performing a hierarchical clustering analysis with all voxels i...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
The human brain is a complex network that shares and processes information by using the structural p...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Nowadays, connectivity patterns of brain networks are of special interest, as they may reflect commu...
In modern neuroscience there is general agreement that brain function relies on networks and that co...