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All scenes containing file Q1-Q6_RelatedValidation210.L.very_inflated_MSMAll_2_d41_WRN_DeDrift.32k_fs_LR.surf.gii
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Study: A Multi-modal Parcellation of Human Cerebral Cortex
210V MPM Multi-modal Cortical with FreeSurfer Subcortical
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: Cerebral Cortical Folding, Parcellation, and Connectivity
Figure 3 C, D Macaque and human cortical parcellations
Study: Hierarchy of transcriptomic specialization across human cortex
Monkey Structural Neuroimaging Maps
Study: Hierarchy of transcriptomic specialization across human cortex
GABA_A Receptor Subunit Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Muscarinic Acetylcholine Receptor Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Serotonin Receptor Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Cortical Parcellations
Study: Hierarchy of transcriptomic specialization across human cortex
Human Interneuron Marker Gene Expression
Study: Hierarchy of transcriptomic specialization across human cortex
Human Excitatory Cell Type Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Norepinephrine Receptor Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Dopamine Receptor Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Nicotinic Acetylcholine Receptor Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
Human Gene Set PCA
Study: Hierarchy of transcriptomic specialization across human cortex
Human Structural Neuroimaging Maps
Study: Hierarchy of transcriptomic specialization across human cortex
Human Layer-Specific Gene Expression
Study: Hierarchy of transcriptomic specialization across human cortex
Human Inhibitory Cell Type Expression Profiles
Study: Hierarchy of transcriptomic specialization across human cortex
NMDA Receptor Subunit Expression Profiles
Study: Cognition Treadmill Test
RelationalConsensus
Study: Cognition Treadmill Test
MultiTaskConsensus
Study: Cognition Treadmill Test
EmotionLangMotorConsensus
Study: Cognition Treadmill Test
WMConsensus
Study: Cognition Treadmill Test
2bkvs0bkTop3Predictive
Study: Cognition Treadmill Test
SocialConsensus
Study: Cognition Treadmill Test
GamblingConsensus
Study: Transcriptomics-informed modeling of pharmacological neuroimaging effects of LSD
Subject-level empirical delta GBC maps
Study: Transcriptomics-informed modeling of pharmacological neuroimaging effects of LSD
Structural and functional connectivity matrices
Study: Transcriptomics-informed modeling of pharmacological neuroimaging effects of LSD
Whole-brain HTR2A expression levels
Study: Transcriptomics-informed modeling of pharmacological neuroimaging effects of LSD
Subject-level model delta GBC maps
Study: PFC in Humans Relative to Nonhuman Primates
Figure 1: Parcellations of Human Prefrontal Cortex
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 5
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Supplemental Figure S8
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Supplemental Figure S10
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 1
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Area probability files
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 3
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 4
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 6
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 7
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Figure 9
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Supplemental Figure S1
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Supplemental Figure S6
Study: The Impact of Traditional Neuroimaging Methods on the Spatial Localization of Cortical Areas
Supplemental Figure S9
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 6
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Gradient Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation with Somatosensory Motor Sub Regions
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 2
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 4
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Dynamic Dense Functional Connectomes
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Task fMRI Beta Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Group MPM Parcellations
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=137 Resting State Networks (RSNs)
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Mean Functional Connectivity Gradients
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Probabilistic Areas
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Myelin Gradient
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Original Semiautomated Parcellation
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Visuotopic Sign Maps
Study: A Multi-modal Parcellation of Human Cerebral Cortex
d=20+1 tfMRI Contrast ICA Dimensionality Reduction
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Lateral | Medial | Flat Views
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Folding
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Cortical Thickness
Study: A Multi-modal Parcellation of Human Cerebral Cortex
Figure 1
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