All scenes containing file S1200.R.very_inflated_MSMAll.32k_fs_LR.surf.gii
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Study: Whole-brain 3D myeloarchitectonic atlas
Figure 3 - In-vivo MRI validation experiment
Study: fMRI Test-Retest Reliability of SST
Fig2_ICCs_MZ_TwinCorrelations
Study: fMRI Test-Retest Reliability of SST
FigS10_FDRCorrected_SignificantActivations
Study: IamBrain HCP Anatomy & Tractography Tutorial
Superior Thalamic Radiation (str); maps 36, 37 (Somatomotor, Cingulo-Opercular networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Vertical occipital fasciculus (vof); maps 40, 41 (Visual2 network)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Fronto-Aslant tract (fa); maps 16, 17 (Fronto-Parietal and language networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Uncinate fasciculus (uf); maps 38, 39m(Fronto-Parietal, Cingulo-Opercular networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Acoustic radiation (ar); maps 4, 5 (Auditory, Language networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Superior longitudinal fasciculus 1 (SLF 1); maps 30, 31 (Somatomotor, Cingulo-Opercular networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Fornix (fx); maps 20, 21 (Default network)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Arcuate fasciculus (af) maps 2, 3 (Language, Cingulo-Opercular, Dorsal Attention networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Inferior Fronto-Occipital fasciculus (ifo); maps 22, 23 (CO, OA, Vis, Vis2, Default networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Optic radiation (or); maps 28, 29 (Visual, Visual 2, Auditory, Cingulo-Opercular networks); centered on left LGN seed
Study: IamBrain HCP Anatomy & Tractography Tutorial
Group Average Surface Maps + Volume
Study: IamBrain HCP Anatomy & Tractography Tutorial
Cortical Parcellations
Study: IamBrain HCP Anatomy & Tractography Tutorial
Group Average Story Task with Language Network (CAB-NP)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Language network areas (annotated with area names)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Corticospinal tract (cst); surface maps 14, 15 (Somatomotor network)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Optic radiation (or); maps 28, 29 (Visual, Visual 2, Auditory, Cingulo-Opercular networks); centered midway along left optic radiation
Study: IamBrain HCP Anatomy & Tractography Tutorial
Anterior Thalamic Radiation (atr); maps 6, 7 (Fronto-Parietal, Default networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Anterior commissure (ac); map 1
Study: IamBrain HCP Anatomy & Tractography Tutorial
Cingulum bundle dorsal (cpd); maps 8, 9 (Cingulo-Opercular, Default networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Cingulum bundle peri-genual (cbp); maps 10,11 (Default, Cingulo-Opercular networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Cingulum bundle temporal (cbt); maps 12. 13 (Default network)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Forceps major (fma) map 18 (Visual, Visual 2 networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Forceps minor (fmi); map 19 (Default network)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Inferior longitudinal fasciculus (ilf); maps 24, 25 (Default, Fronto-Parietal networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Middle longitudinal fasciculus (mdlf); maps 26, 27 (language, auditory, Visual2, dorsal attn networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Superior longitudinal fasciculus 2 (slf2); maps 32, 33 (Fronto-Parietal, Dorsal Attention, Default, and Somatosensory networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Superior longitudinal fasciculus 3 (slf 3); maps 34, 35 (Fronto-Parietal, Cingulo-Opercular networks)
Study: IamBrain HCP Anatomy & Tractography Tutorial
Middle cerebellar peduncle (mcp); no matching surface map
Study: Impact of Dimensionality on Reliability
Figure 2. Coherence Reliability within Canonical Cortical Networks
Study: Impact of Dimensionality on Reliability
Figure 3. Connectivity Reliability within Canonical Cortical Networks
Study: Impact of Dimensionality on Reliability
Figure 1. Cortical parcellations with ICA along with the Gordon and Glasser atlases
Study: The relationship between spatial configuration and functional connectivity of brain regions revisited
Figure 6
Study: The relationship between spatial configuration and functional connectivity of brain regions revisited
Figure 1
Study: The relationship between spatial configuration and functional connectivity of brain regions revisited
Figure 5
Study: The relationship between spatial configuration and functional connectivity of brain regions revisited
Figure 5 (zoom)
Study: The relationship between spatial configuration and functional connectivity of brain regions revisited
Figure 8 - video 1
Study: Test-retest reliability of fMRI
Fig2_Parametric
Study: Test-retest reliability of fMRI
Fig3_Parametric
Study: Test-retest reliability of fMRI
Fig2_Categorical
Study: Test-retest reliability of fMRI
Suppl_Fig13_Categorical
Study: Test-retest reliability of fMRI
Fig3_Categorical
Study: Test-retest reliability of fMRI
Suppl_Fig3
Study: Test-retest reliability of fMRI
Suppl_Fig4
Study: Test-retest reliability of fMRI
Suppl_Fig13_Parametric
Study: Cerebral Cortical Folding, Parcellation, and Connectivity
Figure 3 C, D Macaque and human cortical parcellations
Study: Cerebral Cortical Folding, Parcellation, and Connectivity
Figure S1. Individual variability in structural MRI volume slices
Study: Cerebral Cortical Folding, Parcellation, and Connectivity
Figure 2. Myelin maps: human, chimp, macaque, marmoset, mouse
Reference: Human Cortical Parcellations
Yeo et al. (2011) 17-network RSNs with CAB-NP RSN borders overlaid
Reference: Human Cortical Parcellations
MMP1.0 210V Parcellation on inflated surfaces
Reference: Human Cortical Parcellations
Gordon333 resting-state-network parcellation with MMP1.0 210V borders overlaid)
Reference: Human Cortical Parcellations
Cole-Anticevic Brain Network Parcellation (CAB-NP) + MMP1.0 210P borders
Reference: Human Cortical Parcellations
Human Cortical Lobes (from PALS_B12 atlas) with HCP_MMP borders overlaid
Reference: Human Cortical Parcellations
VDG11 Composite parcellation with MMP1.0 210V borders overlaid
Reference: Human Cortical Parcellations
MMP1.0 210V parcel borders overlaid on S1200 group-average myelin maps
Reference: Human Cortical Parcellations
Probabilistic areas MMP1.0 210V
Reference: Human Cortical Parcellations
MMP1.0 210V Parcellation on flatmaps
Study: Bijsterbosch_ICAdimensionalities_2019
ICA dimensionality effects (motor)
Study: Bijsterbosch_ICAdimensionalities_2019
ICA dimensionality effects (visual 2)
Study: Bijsterbosch_ICAdimensionalities_2019
ICA dimensionality effects (DMN)
Study: Bijsterbosch_ICAdimensionalities_2019
ICA demsionality effects (visual)
Study: The Lifespan Human Connectome Project in Development: A large-scale study of brain connectivity development in 5-21 year olds
Figure 8
Study: The Lifespan Human Connectome Project in Development: A large-scale study of brain connectivity development in 5-21 year olds
Figure 5
Study: The Lifespan Human Connectome Project in Development: A large-scale study of brain connectivity development in 5-21 year olds
Figure 6
Study: Comparative Connectomics of the Primate Social Brain
Face-selective patches in marmosets, macaques, and humans.
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement5_18
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement5_43
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement7_39
Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement3_15
Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement6_24
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement7_49
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement7_30
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement1
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement2_45
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement2_22
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement5_11
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement2_35
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement2_33
Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement4_40
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement4_12
Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement5_09
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement5_02
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement6_37
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement6_10
Study: The relationship between spatial configuration and functional connectivity of brain regions
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Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement6_20
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement7_07
Study: The relationship between spatial configuration and functional connectivity of brain regions
Fig2_supplement7_17
Study: Perspective for NHP_NNP
Fig. 2 Cross-species comparison of individual’s cortical surface, average and variability
Study: Perspective for NHP_NNP
Fig. 1 Cortical thickness in human, chimpanzee, macaque and marmoset
Reference: Human HCP S1200 Structural + fMRI Atlas
HCP S1200 Average midthickness surfaces, folding overlay + average volumes (1096 subjects, MSM-All Registered)
Reference: Human HCP S1200 Structural + fMRI Atlas
HCP S1200 Individual Maps: myelin, thickness, curvature, sulc, midthickness vertex area
Reference: Human HCP S1200 Structural + fMRI Atlas
HCP S1200 Individual folding, sulc maps (1096 subjects, MSM-All Registered)
Reference: Human HCP S1200 Structural + fMRI Atlas
HCP S1200 Group Average Maps: myelin, thickness, curvature, sulc (1096 subjects, MSM-All Registered)
Reference: Human HCP S1200 Structural + fMRI Atlas
HCP S1200 Average task-fMRI Cohen's D effect-size maps (997 subjects, MSMAll vs. MSMSulc Registered)
Reference: Human HCP S1200 Structural + fMRI Atlas
Cortical Parcellations
Reference: Human HCP S1200 Structural + fMRI Atlas
Cortical Parcellations