Spatiotemporal dynamics of the brain at rest—exploring EEG microstates as electrophysiological signatures of BOLD resting state networks
Neuroimaging research suggests that the resting cerebral physiology is characterized by
complex patterns of neuronal activity in widely distributed functional networks. As studied …
complex patterns of neuronal activity in widely distributed functional networks. As studied …
Slow waves in cortical slices: how spontaneous activity is shaped by laminar structure
Cortical slow oscillations (SO) of neural activity spontaneously emerge and propagate
during deep sleep and anesthesia and are also expressed in isolated brain slices and …
during deep sleep and anesthesia and are also expressed in isolated brain slices and …
[HTML][HTML] Bidirectional propagation of low frequency oscillations over the human hippocampal surface
The hippocampus is diversely interconnected with other brain systems along its axis. Cycles
of theta-frequency activity are believed to propagate from the septal to temporal pole, yet it is …
of theta-frequency activity are believed to propagate from the septal to temporal pole, yet it is …
[HTML][HTML] Dissociated neuronal phase-and amplitude-coupling patterns in the human brain
Coupling of neuronal oscillations may reflect and facilitate the communication between
neuronal populations. Two primary neuronal coupling modes have been described: phase …
neuronal populations. Two primary neuronal coupling modes have been described: phase …
The brain's resting-state activity is shaped by synchronized cross-frequency coupling of neural oscillations
Functional imaging of the resting brain consistently reveals broad motifs of correlated blood
oxygen level dependent (BOLD) activity that engages cerebral regions from distinct …
oxygen level dependent (BOLD) activity that engages cerebral regions from distinct …
Fast transient networks in spontaneous human brain activity
To provide an effective substrate for cognitive processes, functional brain networks should
be able to reorganize and coordinate on a sub-second temporal scale. We used …
be able to reorganize and coordinate on a sub-second temporal scale. We used …
[PDF][PDF] Whole-brain neuronal activity displays crackling noise dynamics
Previous studies suggest that the brain operates at a critical point in which phases of order
and disorder coexist, producing emergent patterned dynamics at all scales and optimizing …
and disorder coexist, producing emergent patterned dynamics at all scales and optimizing …
[HTML][HTML] Brain functional connectivity through phase coupling of neuronal oscillations: a perspective from magnetoencephalography
Magnetoencephalography has gained an increasing importance in systems neuroscience
thanks to the possibility it offers of unraveling brain networks at time-scales relevant to …
thanks to the possibility it offers of unraveling brain networks at time-scales relevant to …
[HTML][HTML] Generating brain waves, the power of astrocytes
Y Buskila, A Bellot-Saez, JW Morley - Frontiers in neuroscience, 2019 - frontiersin.org
Synchronization of neuronal activity in the brain underlies the emergence of neuronal
oscillations termed “brain waves”, which serve various physiological functions and correlate …
oscillations termed “brain waves”, which serve various physiological functions and correlate …
Dynamic models of large-scale brain activity
M Breakspear - Nature neuroscience, 2017 - nature.com
Movement, cognition and perception arise from the collective activity of neurons within
cortical circuits and across large-scale systems of the brain. While the causes of single …
cortical circuits and across large-scale systems of the brain. While the causes of single …