In this paper, we present a novel framework for parcellation of a brain region into functional subROIs (Sub-Region-of-Interest) based on their connectivity pat- terns with other brain regions. By utilising previously established neuroanatomy information, the proposed method aims at nding spatially-continuous, func- tionally consistent subROIs in a given brain region. The proposed framework relies on 1) a sparse spatially-regularized fused lasso regression model for en- couraging spatially and functionally adjacent voxels to share similar regression coe cients; 2) an iterative merging and adaptive parameter tuning process; 3) a Graph-Cut optimization algorithm for assigning overlapped voxels into separate subROIs. Our simulation re...
AbstractNoninvasive parcellation of the human cerebral cortex is an important goal for understanding...
Regional specialization and functional integration are often viewed as two fundamental principles of...
peer reviewedA defining aspect of brain organization is its spatial heterogeneity, which gives rise ...
Functional magnetic resonance imaging (fMRI) has shown great potential in studying the underlying ne...
Functional neuroimaging studies have led to understanding the brain as a collection of spatially seg...
Inferring brain functional connectivity from functional magnetic resonance imaging (fMRI) data exten...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
The dominant approach to neuroimaging data analysis employs the voxel as the unit of computation. Wh...
Contains fulltext : 193103.pdf (publisher's version ) (Open Access)Brain regions a...
International audienceFunctional neuroimaging provides the unique opportunity to characterize brain ...
In this paper, we describe a new methodology for defining brain regions-of-interset (ROIs) in functi...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
Accurate mapping of the functional interactions between remote brain areas with resting-state functi...
AbstractNoninvasive parcellation of the human cerebral cortex is an important goal for understanding...
Regional specialization and functional integration are often viewed as two fundamental principles of...
peer reviewedA defining aspect of brain organization is its spatial heterogeneity, which gives rise ...
Functional magnetic resonance imaging (fMRI) has shown great potential in studying the underlying ne...
Functional neuroimaging studies have led to understanding the brain as a collection of spatially seg...
Inferring brain functional connectivity from functional magnetic resonance imaging (fMRI) data exten...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
The dominant approach to neuroimaging data analysis employs the voxel as the unit of computation. Wh...
Contains fulltext : 193103.pdf (publisher's version ) (Open Access)Brain regions a...
International audienceFunctional neuroimaging provides the unique opportunity to characterize brain ...
In this paper, we describe a new methodology for defining brain regions-of-interset (ROIs) in functi...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
Accurate mapping of the functional interactions between remote brain areas with resting-state functi...
AbstractNoninvasive parcellation of the human cerebral cortex is an important goal for understanding...
Regional specialization and functional integration are often viewed as two fundamental principles of...
peer reviewedA defining aspect of brain organization is its spatial heterogeneity, which gives rise ...