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Issues
2021
EISSN 2472-1751
In this Issue
Review
Perspective
Gradients of connectivity as graph Fourier bases of brain activity
Network Neuroscience (2021) 5 (2): 322–336.
Methods
Stepwise target controllability identifies dysregulations of macrophage networks in multiple sclerosis
Network Neuroscience (2021) 5 (2): 337–357.
Research
The R1-weighted connectome: complementing brain networks with a myelin-sensitive measure
Network Neuroscience (2021) 5 (2): 358–372.
Inferring network properties from time series using transfer entropy and mutual information: Validation of multivariate versus bivariate approaches
Network Neuroscience (2021) 5 (2): 373–404.
Dynamic expression of brain functional systems disclosed by fine-scale analysis of edge time series
Network Neuroscience (2021) 5 (2): 405–433.
MRI network progression in mesial temporal lobe epilepsy related to healthy brain architecture
Network Neuroscience (2021) 5 (2): 434–450.
Spontaneous eye movements during eyes-open rest reduce resting-state-network modularity by increasing visual-sensorimotor connectivity
Network Neuroscience (2021) 5 (2): 451–476.
Predicting MEG resting-state functional connectivity from microstructural information
Network Neuroscience (2021) 5 (2): 477–504.
Long-term stability of avalanche scaling and integrative network organization in prefrontal and premotor cortex
Network Neuroscience (2021) 5 (2): 505–526.
Inferring the heritability of large-scale functional networks with a multivariate ACE modeling approach
Fernanda L. Ribeiro, Felipe R. C. dos Santos, João R. Sato, Walter H. L. Pinaya, Claudinei E. Biazoli, Jr.
Network Neuroscience (2021) 5 (2): 527–548.
Simplicial and topological descriptions of human brain dynamics
Network Neuroscience (2021) 5 (2): 549–568.
A novel dynamic network imaging analysis method reveals aging-related fragmentation of cortical networks in mouse
Network Neuroscience (2021) 5 (2): 569–590.
Structure-informed functional connectivity driven by identifiable and state-specific control regions
Network Neuroscience (2021) 5 (2): 591–613.
Infant functional networks are modulated by state of consciousness and circadian rhythm
Network Neuroscience (2021) 5 (2): 614–630.
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