Whole-brain anatomical networks: does the choice of nodes matter?
about
Multimodal neuroimaging computing: the workflows, methods, and platformsModeling of Large-Scale Functional Brain Networks Based on Structural Connectivity from DTI: Comparison with EEG Derived Phase Coupling Networks and Evaluation of Alternative Methods along the Modeling Path.Network-Based Analysis Reveals Functional Connectivity Related to Internet Addiction Tendency.Dwelling quietly in the rich club: brain network determinants of slow cortical fluctuations.Functional Connectome before and following Temporal Lobectomy in Mesial Temporal Lobe EpilepsyDisrupted functional brain connectivity and its association to structural connectivity in amnestic mild cognitive impairment and Alzheimer's diseaseA Supervoxel-Based Method for Groupwise Whole Brain Parcellation with Resting-State fMRI DataAberrant functional connectome in neurologically asymptomatic patients with end-stage renal diseasePredicting Surgery Targets in Temporal Lobe Epilepsy through Structural Connectome Based SimulationsSpontaneous functional network dynamics and associated structural substrates in the human brainGRETNA: a graph theoretical network analysis toolbox for imaging connectomicsHuman connectomics - what will the future demand?Connectomics and new approaches for analyzing human brain functional connectivityThe hypothesis of neuronal interconnectivity as a function of brain size-a general organization principle of the human connectomeThe Virtual Brain: a simulator of primate brain network dynamicsMulti-scale brain networksFunctional network organization of the human brainResting-state low-frequency fluctuations reflect individual differences in spoken language learningDynamic disconnection of the supplementary motor area after processing of dismissive biographic narratives.Failure tolerance of motif structure in biological networks.An empirical Bayes normalization method for connectivity metrics in resting state fMRIImaging connectivity: MRI and the structural networks of the brain.Defining nodes in complex brain networksFunctional brain connectivity using fMRI in aging and Alzheimer's disease.Understanding structural-functional relationships in the human brain: a large-scale network perspective.A data-driven method to reduce the impact of region size on degree metrics in voxel-wise functional brain networks.Functional network alterations and their structural substrate in drug-resistant epilepsyOptimization of large-scale mouse brain connectome via joint evaluation of DTI and neuron tracing data.Connectivity-based parcellation: Critique and implications.A Bayesian hierarchical framework for modeling brain connectivity for neuroimaging dataIdentification of functional networks in resting state fMRI data using adaptive sparse representation and affinity propagation clustering.Increased cortical-limbic anatomical network connectivity in major depression revealed by diffusion tensor imagingTask-Related Edge Density (TED)-A New Method for Revealing Dynamic Network Formation in fMRI Data of the Human Brain.Whole-brain functional connectivity identification of functional dyspepsiaA Symmetry-Based Method to Infer Structural Brain Networks from Probabilistic Tractography DataLet's Not Waste Time: Using Temporal Information in Clustered Activity Estimation with Spatial Adjacency Restrictions (CAESAR) for Parcellating FMRI Data.Influence of wiring cost on the large-scale architecture of human cortical connectivity.Development of large-scale functional networks from birth to adulthood: A guide to the neuroimaging literature.Gender differences in the structural connectome of the teenage brain revealed by generalized q-sampling MRI.Eigenvector centrality mapping for analyzing connectivity patterns in fMRI data of the human brain.
P2860
Q26766359-00963B86-FEC6-4225-B96D-B72874B774C2Q27315994-62D789CD-999C-442D-9187-07F7CDF9F0B3Q27316721-3B42D881-365F-4A99-87A8-5C5707CAA9D5Q27324168-1D21B8F6-86EF-47F3-80CE-E66B44B33A03Q27331968-7A99A006-7479-47C7-AF0E-F87EC3FFBFE2Q27334522-9C3ACE54-1309-4E8D-8FAB-32120FC38D29Q28524441-CF7BBE56-BBD3-44A9-90D7-33D31DA7FC2BQ28544624-E020D7C8-8B13-49A2-BAC4-94F8B7457AC6Q28551466-01FB31D8-6B7F-4A9A-A901-2721F0E64D5EQ28608053-8279CC9F-EAB2-47BD-A95A-A60163ACDBDAQ28647817-2D7B8D6F-0363-479F-A796-E5C71B715C0EQ28649854-11C22271-BB3F-4589-97D2-55A5E12F590AQ28651611-A78449ED-DAC0-4941-B37C-8D6FAEDFE65EQ28652393-9C7397E5-8996-4FAE-A56F-3EF36E512761Q28681611-333944CD-0721-4233-95D6-B2DD578E2077Q28860647-14A1F78E-4836-410C-A803-12842DCD4D21Q29622931-3F3D7F57-0CDA-4973-AD2E-5CF7F081F036Q30362127-88BEE747-491B-4BF4-98BA-D2DAEAC8E6E0Q30400131-7A91FA18-C135-48AA-A23F-EFE39D6DE079Q30403407-EB565F19-EF73-4097-A4F8-4EA74E345460Q30665665-1AB399A3-B1D2-4079-A4E5-4FDCF80FE459Q30680155-605FABEB-3550-40B8-916A-9847263EEB56Q30711206-99DA55ED-1143-42EE-A8B8-8B1BE7A4B556Q30762566-DB7DE75F-B3B5-4D8A-A1D5-67E1EE2132E8Q30833227-321FEDDC-E4DF-4821-83F1-BCD20C7A0037Q30865145-3D2CA4DF-4F05-4148-B70C-90FA50F4D35AQ30883108-BF168F1D-4895-4CAF-B59E-C11186C39D81Q30946714-C7419C55-7D88-4591-8859-4208858A07AEQ30997822-30709AD6-F7D6-4713-B809-51DF0D98969DQ31011197-769A2AF8-780E-48AE-8B98-42128155C56FQ31015559-26EDE1E3-0D12-4E55-995D-243A64A552B0Q31103123-F1B2FA6F-9C27-4ED8-B785-B97A4977B00AQ31110471-652B5C59-3AC8-4BE7-B912-270EDC4B1AE5Q31120537-2352B4FE-6A5D-4D1A-8139-0B9AEF98E3F1Q31143514-91C8778F-2AFB-448E-8147-F6D8586629D4Q31147878-3A71920F-DA51-4E57-A5E0-6286594D7E0FQ31155762-0DCB03B8-89F2-465D-816D-4092E5D60B76Q31159591-3EF880EC-D131-48C5-9CAB-B7DFC8CC0CFAQ33365545-AB890C09-BC2C-4F99-9A46-B49000C67585Q33570517-265D80EE-70EB-4413-9CF9-A2C20626FCA9
P2860
Whole-brain anatomical networks: does the choice of nodes matter?
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Whole-brain anatomical networks: does the choice of nodes matter?
@en
Whole-brain anatomical networks: does the choice of nodes matter?
@nl
type
label
Whole-brain anatomical networks: does the choice of nodes matter?
@en
Whole-brain anatomical networks: does the choice of nodes matter?
@nl
prefLabel
Whole-brain anatomical networks: does the choice of nodes matter?
@en
Whole-brain anatomical networks: does the choice of nodes matter?
@nl
P50
P1433
P1476
Whole-brain anatomical networks: does the choice of nodes matter?
@en
P2093
Alex Fornito
P304
P356
10.1016/J.NEUROIMAGE.2009.12.027
P407
P577
2009-12-24T00:00:00Z