The restless brain: how intrinsic activity organizes brain function.
about
From Structure to Circuits: The Contribution of MEG Connectivity Studies to Functional NeurosurgeryIn Vivo Mapping of Cortical Columnar Networks in the Monkey with Focal Electrical and Optical StimulationFossil skulls reveal that blood flow rate to the brain increased faster than brain volume during human evolutionThe Role of Architectural and Learning Constraints in Neural Network Models: A Case Study on Visual Space Coding.Molecular, Functional, and Structural Imaging of Major Depressive Disorder.How networks communicate: propagation patterns in spontaneous brain activitySurface-based morphometry reveals the neuroanatomical basis of the five-factor model of personality.Racial Differences in Insular Connectivity and Thickness and Related Cognitive Impairment in Hypertension.Feeding the brain and nurturing the mind: Linking nutrition and the gut microbiota to brain development.Individual Human Brain Areas Can Be Identified from Their Characteristic Spectral Activation FingerprintsAmplitude of Low Frequency Fluctuation (ALFF) in the Cervical Spinal Cord with Stenosis: A Resting State fMRI Study.Functional Connectivity Mapping in the Animal Model: Principles and Applications of Resting-State fMRI.Hemodynamic and Light-Scattering Changes of Rat Spinal Cord and Primary Somatosensory Cortex in Response to Innocuous and Noxious StimuliThe Exercising Brain: Changes in Functional Connectivity Induced by an Integrated Multimodal Cognitive and Whole-Body Coordination TrainingBrain aerobic glycolysis and motor adaptation learning.Temporal metastates are associated with differential patterns of time-resolved connectivity, network topology, and attention.Multivoxel neurofeedback selectively modulates confidence without changing perceptual performance.Hypoconnectivity of Resting-State Networks in Persons with Aphasia Compared with Healthy Age-Matched Adults.Brain Rhythms of Pain.Interactions of the Salience Network and Its Subsystems with the Default-Mode and the Central-Executive Networks in Normal Aging and Mild Cognitive Impairment.Maintenance and Representation of Mind Wandering during Resting-State fMRITemporal Characteristics of EEG Microstates Mediate Trial-by-Trial Risk Taking.Adolescent brain development and depression: A case for the importance of connectivity of the anterior cingulate cortex.The vicious circle of hypometabolism in neurodegenerative diseases: Ways and mechanisms of metabolic correction.The brain on silent: mind wandering, mindful awareness, and states of mental tranquility.Probabilistic Models and Generative Neural Networks: Towards an Unified Framework for Modeling Normal and Impaired Neurocognitive Functions.Functional connectivity in amygdalar-sensory/(pre)motor networks at rest: new evidence from the Human Connectome Project.The Neural Code for Pain: From Single-Cell Electrophysiology to the Dynamic Pain Connectome.Simultaneous Intracranial EEG-fMRI Shows Inter-Modality Correlation in Time-Resolved Connectivity Within Normal Areas but Not Within Epileptic Regions.Review: How do spontaneous and sensory-evoked activities interact?Modulation of Frontoparietal Neurovascular Dynamics in Working Memory.How spontaneous brain activity and narcissistic features shape social interaction.Urgency urinary incontinence and the interoceptive network: a functional magnetic resonance imaging study.Spontaneous activity in the piriform cortex extends the dynamic range of cortical odor codingOn the existence of a generalized non-specific task-dependent networkIntroduction to the theme issue 'Cerebral cartography: a vision of its future'.Insect models of central nervous system energy metabolism and its links to behavior.Effective Connectivity Measured Using Optogenetically Evoked Hemodynamic Signals Exhibits Topography Distinct from Resting State Functional Connectivity in the Mouse.Visual experience sculpts whole-cortex spontaneous infraslow activity patterns through an Arc-dependent mechanism.Cortical thickness and functional connectivity abnormality in chronic headache and low back pain patients.
P2860
Q26738417-CC72056F-69CD-4478-A6AF-78F4ADB7AED0Q26774816-3EB7BB03-BB28-42EA-AFE3-62571CBD7B4AQ28595792-519B92C5-7430-4AFB-878C-D716A09AE710Q30359506-58CC8715-CA1F-49A4-8B2C-1207BACDEF85Q31090058-232CC98E-A1BF-4B3C-B215-DE75EB8875F0Q31125461-D4F3DF9E-53C2-4C01-BAF4-ED957C3B124EQ33561815-9E6D4E7B-7384-4A7F-B33F-D26B852B0B3AQ33741360-C23BE7C3-0DF2-4137-8C01-AFBF4B61B38FQ35844635-5C1BE65A-CA48-43CA-AE52-5E2E65C3FF97Q36063783-4F186A5D-BE69-41CE-8A20-8A86B726867AQ36209890-A67D8273-8A75-4A45-9BD3-0BF213D3449FQ36379529-EB56BDBA-5C0B-45E8-A9F4-1F1F2582225AQ36429598-43183B4A-5956-4C0B-B491-AA079C130EC2Q36447197-C482B4AE-371D-4DDC-90B7-0C6E12378F30Q37065240-41982C3C-8676-4B7D-860C-AC377882EAF0Q37258614-C00CEF9D-B068-4E22-8FF1-9716CC8EFC6FQ37518990-3E026E32-887B-4774-95EC-2F7D70ADE797Q37670560-2D7BD0DE-4558-4272-A7BF-2AB79A8E1E79Q37731135-1511CDCC-992B-4725-86CC-C9A3D97870C3Q38679322-9C817BDF-3DC1-4C15-AB52-5BC074AEFBFEQ38771492-FF58DF96-105E-4EE1-976C-5BADF4643A73Q38785358-59E5C6B5-E7F5-44D8-8A41-F066D7AAF6D1Q38808603-356168B0-244F-4393-BBF4-A56D9D994C18Q38809233-9F2F56C6-9A43-4EC0-BE29-629EEFDE7277Q38843409-21EC1F56-923E-4534-9407-9D3D8C1B346DQ38911276-AAEAB89C-C431-4FBC-BCC8-BF5F9D72A78BQ38945861-188CE0E6-3E2D-4862-98C1-9A0D9219D114Q38962294-548B1A52-9447-478F-828A-DAF4B756B85BQ38962949-7B95A198-AC10-461A-970D-487204E8894EQ39384775-F9F4357E-2F82-4DA9-B40D-889F473EAE22Q40557312-B7090B7D-81FF-40E7-A433-48C912640F68Q41564819-57CE1092-CEAE-48C5-92B3-CBE4BD1BFD32Q41630055-B731EFD7-D55A-4DD1-A255-FA16E52DC058Q42044598-9DD1C9BA-1C3B-4149-9C5A-368A3E888598Q42422034-B0D549D4-B716-47D6-9B77-92B408FD7A1FQ43220257-41FD843E-E07A-44E1-830B-18AC28F39A68Q46299096-2F63D193-C493-47F0-8D56-B4CB223CAF28Q47350086-E652D3E9-1B8D-4BC4-A92C-49D95823D66EQ47395982-8229CA73-F6F7-4BFC-B53C-F7CD0FD6247EQ47778171-C26CBB7D-8E0C-4EE4-A072-B6E206B072B0
P2860
The restless brain: how intrinsic activity organizes brain function.
description
2015 nî lūn-bûn
@nan
2015 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
The restless brain: how intrinsic activity organizes brain function.
@ast
The restless brain: how intrinsic activity organizes brain function.
@en
type
label
The restless brain: how intrinsic activity organizes brain function.
@ast
The restless brain: how intrinsic activity organizes brain function.
@en
prefLabel
The restless brain: how intrinsic activity organizes brain function.
@ast
The restless brain: how intrinsic activity organizes brain function.
@en
P2860
P356
P1476
The restless brain: how intrinsic activity organizes brain function.
@en
P2860
P356
10.1098/RSTB.2014.0172
P407
P577
2015-05-01T00:00:00Z
2015-05-19T00:00:00Z