Changes in connectivity profiles define functionally distinct regions in human medial frontal cortex.
about
Implication of the anterior commissure in the allocation of attention to actionThe human connectome: A structural description of the human brainMapping the structural core of human cerebral cortexHierarchical information-based clustering for connectivity-based cortex parcellationMicrostructural Parcellation of the Human Cerebral Cortex - From Brodmann's Post-Mortem Map to in vivo Mapping with High-Field Magnetic Resonance ImagingThe organization of the human cerebral cortex estimated by intrinsic functional connectivityAn investigation of the structural, connectional, and functional subspecialization in the human amygdalaCommon neural substrates for inhibition of spoken and manual responsesUnderstanding the parietal lobe syndrome from a neurophysiological and evolutionary perspectiveDetecting network modules in fMRI time series: a weighted network analysis approachIs there "one" DLPFC in cognitive action control? Evidence for heterogeneity from co-activation-based parcellationSubspecialization in the human posterior medial cortexLarge-Scale Meta-Analysis of Human Medial Frontal Cortex Reveals Tripartite Functional OrganizationRostro-caudal Architecture of the Frontal Lobes in HumansRoles of Supplementary Motor Areas in Auditory Processing and Auditory ImageryDiffusion MRI at 25: exploring brain tissue structure and functionNetworks of task co-activationsTackling the multifunctional nature of Broca's region meta-analytically: co-activation-based parcellation of area 44.A Supervoxel-Based Method for Groupwise Whole Brain Parcellation with Resting-State fMRI DataCharacterization of Structural Connectivity of the Default Mode Network in Dogs using Diffusion Tensor ImagingMeta-analysis in human neuroimaging: computational modeling of large-scale databasesWhat can volumes reveal about human brain evolution? A framework for bridging behavioral, histometric, and volumetric perspectivesConnexel visualization: a software implementation of glyphs and edge-bundling for dense connectivity data using brainGLAssessing the influence of different ROI selection strategies on functional connectivity analyses of fMRI data acquired during steady-state conditionsResting-State Functional Connectivity of the Medial Superior Frontal CortexDisturbances of time consciousness from a phenomenological and a neuroscientific perspective.Tractography-based Parcellation of the Human Middle Temporal Gyrus.Connectivity-based parcellation of the human frontal polar cortex.Manipulating motor performance and memory through real-time fMRI neurofeedback.Parcellation of the primary cerebral cortices based on local connectivity profilesDifferentiating maturational and training influences on fMRI activation during music processing.Auditory conflict resolution correlates with medial-lateral frontal theta/alpha phase synchrony.Decoding the role of the insula in human cognition: functional parcellation and large-scale reverse inference.Neurocognitive mechanisms of action control: resisting the call of the Sirens.Clustering probabilistic tractograms using independent component analysis applied to the thalamusAn fMRI study of functional abnormalities in the verbal working memory system and the relationship to clinical symptoms in chronic schizophrenia.Tractography-based priors for dynamic causal models.Supplementary motor area exerts proactive and reactive control of arm movementsProbabilistic tractography recovers a rostrocaudal trajectory of connectivity variability in the human insular cortexReliable identification of the auditory thalamus using multi-modal structural analyses.
P2860
Q21129135-D28993B7-B1ED-4702-AB61-8C6C23BC1F72Q21145696-F5B7FD50-EC09-4770-89EB-27F92710B1C8Q21145869-13EF74C4-47CF-4060-9BA7-05B46119992CQ21558400-6AA9EE33-80C8-45CF-AF1F-AF933B97D85DQ21558440-C4DBBB47-C729-4871-A06C-5F32AB2705CEQ22241961-6B2CC254-35C5-4E28-80EF-868C1506C6F9Q23890428-865E155F-47AC-490D-853A-3F0453A57690Q23891061-0EAF68A4-D768-49D8-8205-2AB3AFE0028FQ24616402-112CF97B-74D9-432E-B1E4-516290025812Q24632511-8E38639E-2468-48AE-ACCC-9CC44932FBD9Q24757968-3AD78DD8-B73E-4E61-B427-5BE76152D329Q24843189-7A9B8401-32E2-409B-9DE1-C342F0747085Q24843197-4BD5FF3A-D7B8-4ED2-ADAA-7F7F76311E1BQ26722176-703CBEBA-C1B9-4B0C-A1B9-058854B17D93Q26744388-C4D7BECF-7362-4E05-A381-CBDE7D12E1ECQ26866050-73E4EFA8-295D-4EB7-A625-AA298690BE56Q27025562-014811D3-33B9-4E50-A248-220D3E8A52AAQ27307678-CDE0E4AE-4529-4919-ABAE-580871827374Q28524441-119843A4-B9A8-4464-B3D0-07E74A270B1AQ28593241-5603FF78-D94D-4B35-87B6-146DBDC278B6Q28603111-7BE4133F-4D4C-4513-81FB-6F76B81F90E4Q28657721-A8497C26-8F0C-4814-9455-50791B562D84Q28658250-7FDD23A7-EAF4-40EF-A59B-A9396DB66B94Q30000952-919F7D9E-6569-4286-A4BC-751DCC5CE6FDQ30050598-903E8972-F951-4858-9B7B-0A0CA032ED90Q30358043-6FFCD0A8-EE56-4FED-9700-72346A483E24Q30395204-26B1A4FF-2A2C-4309-A61F-96DB3DA3354BQ30404327-501092B2-1562-4FAB-B22B-665B605BFF56Q30411817-5C0BE993-4F58-4FBA-8112-2A3439F70D3CQ30412321-5CDB7A26-C9F8-4B0E-9B6A-C30A21ADAC27Q30413286-6675C46F-5624-49A1-85D7-451291ACDBB6Q30427604-F471A2DA-C59F-4753-8EA8-84249A3C28CBQ30442211-90A04850-5AEF-4952-AE85-4B4AF76E8A6DQ30459771-D2A7B83B-7F8D-4C26-910D-A1157516A98EQ30476409-C3F815F6-B5E1-462F-B9CE-2F76EC3A7CB7Q30477761-3403BED8-F818-4401-B81E-0A96BABFEE5DQ30486380-98427887-C752-4076-A477-9A38A69BB38AQ30497445-7D24E63C-E8A0-4799-BA45-AC4C647CA06CQ30524963-41E2B451-0E47-451C-A4DE-559094BFD322Q30540347-289A520E-B5CA-4511-A23F-2CF8F9230C29
P2860
Changes in connectivity profiles define functionally distinct regions in human medial frontal cortex.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 30 August 2004
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Changes in connectivity profil ...... n human medial frontal cortex.
@en
Changes in connectivity profil ...... n human medial frontal cortex.
@nl
type
label
Changes in connectivity profil ...... n human medial frontal cortex.
@en
Changes in connectivity profil ...... n human medial frontal cortex.
@nl
prefLabel
Changes in connectivity profil ...... n human medial frontal cortex.
@en
Changes in connectivity profil ...... n human medial frontal cortex.
@nl
P2093
P2860
P50
P356
P1476
Changes in connectivity profil ...... in human medial frontal cortex
@en
P2093
D J Higham
I Drobnjak
T E J Behrens
P2860
P304
13335-13340
P356
10.1073/PNAS.0403743101
P407
P577
2004-08-30T00:00:00Z