<p>The five sub-networks obtained by the spectral clustering algorithm, namely, cerebellar, default mode, fronto-parietal, somatomotor, and visual, are discriminated by different colors. L: Left; R: Right.</p
<p>Image selection and ROI delineation: 1a.1b- Right and Left supraventricular frontal lobe; 2a.2b.-...
AbstractThis study was undertaken to learn whether the principle of functional specialization that i...
<p>Sagittal view of subcortical structures with segmentation examples from FreeSurfer of Caudate (li...
<p>(<b>A</b>) Default mode network including precuneus, posterior cingulate cortex, inferior parieta...
<p>From the top to the bottom, brain networks are divided into sub-networks, and each sub-network is...
<p>Voxels with similar frequency-specific ReHo characteristics were automatically classified into th...
Summarization: The human cerebellum contains almost 50% of the neurons in the brain, although its vo...
<p>Each corresponding fiber bundle across brains has the same color, and this color is also the same...
<p>Brain maps of the largest clusters formed by selected voxels that are common between Cases Within...
<p><b>(A)</b> The algorithm involves performing a hierarchical clustering analysis with all voxels i...
<p>Three different angles are presented to maximize the number of brain regions per image: (a), (d) ...
<p>Panel (A) shows the cortical parcellation of the brain. Individual structures are coded in differ...
<p>Axial (top) and coronal (bottom) Brain MR image before (left) and after (right) application of FI...
<p>First row: cortical regions; second and third rows: white matter regions; fourth row: deep gray m...
The human brain cortical layer has a convoluted morphology that is unique to each individual. Charac...
<p>Image selection and ROI delineation: 1a.1b- Right and Left supraventricular frontal lobe; 2a.2b.-...
AbstractThis study was undertaken to learn whether the principle of functional specialization that i...
<p>Sagittal view of subcortical structures with segmentation examples from FreeSurfer of Caudate (li...
<p>(<b>A</b>) Default mode network including precuneus, posterior cingulate cortex, inferior parieta...
<p>From the top to the bottom, brain networks are divided into sub-networks, and each sub-network is...
<p>Voxels with similar frequency-specific ReHo characteristics were automatically classified into th...
Summarization: The human cerebellum contains almost 50% of the neurons in the brain, although its vo...
<p>Each corresponding fiber bundle across brains has the same color, and this color is also the same...
<p>Brain maps of the largest clusters formed by selected voxels that are common between Cases Within...
<p><b>(A)</b> The algorithm involves performing a hierarchical clustering analysis with all voxels i...
<p>Three different angles are presented to maximize the number of brain regions per image: (a), (d) ...
<p>Panel (A) shows the cortical parcellation of the brain. Individual structures are coded in differ...
<p>Axial (top) and coronal (bottom) Brain MR image before (left) and after (right) application of FI...
<p>First row: cortical regions; second and third rows: white matter regions; fourth row: deep gray m...
The human brain cortical layer has a convoluted morphology that is unique to each individual. Charac...
<p>Image selection and ROI delineation: 1a.1b- Right and Left supraventricular frontal lobe; 2a.2b.-...
AbstractThis study was undertaken to learn whether the principle of functional specialization that i...
<p>Sagittal view of subcortical structures with segmentation examples from FreeSurfer of Caudate (li...