[HTML][HTML] Individualized event structure drives individual differences in whole-brain functional connectivity
Resting-state functional connectivity is typically modeled as the correlation structure of
whole-brain regional activity. It is studied widely, both to gain insight into the brain's intrinsic …
whole-brain regional activity. It is studied widely, both to gain insight into the brain's intrinsic …
Modular origins of high-amplitude cofluctuations in fine-scale functional connectivity dynamics
The topology of structural brain networks shapes brain dynamics, including the correlation
structure of brain activity (functional connectivity) as estimated from functional neuroimaging …
structure of brain activity (functional connectivity) as estimated from functional neuroimaging …
[HTML][HTML] Human electromagnetic and haemodynamic networks systematically converge in unimodal cortex and diverge in transmodal cortex
Whole-brain neural communication is typically estimated from statistical associations among
electromagnetic or haemodynamic time-series. The relationship between functional network …
electromagnetic or haemodynamic time-series. The relationship between functional network …
[HTML][HTML] Electrophysiological foundations of the human default-mode network revealed by intracranial-EEG recordings during resting-state and cognition
Investigations using noninvasive functional magnetic resonance imaging (fMRI) have
provided significant insights into the unique functional organization and profound …
provided significant insights into the unique functional organization and profound …
[HTML][HTML] Intracranial electrophysiological and structural basis of BOLD functional connectivity in human brain white matter
While functional MRI (fMRI) studies have mainly focused on gray matter, recent studies have
consistently found that blood-oxygenation-level-dependent (BOLD) signals can be reliably …
consistently found that blood-oxygenation-level-dependent (BOLD) signals can be reliably …
Normative brain mapping of interictal intracranial EEG to localize epileptogenic tissue
The identification of abnormal electrographic activity is important in a wide range of
neurological disorders, including epilepsy for localizing epileptogenic tissue. However, this …
neurological disorders, including epilepsy for localizing epileptogenic tissue. However, this …
Injectable fluorescent neural interfaces for cell-specific stimulating and imaging
S Xu, X Xiao, F Manshaii, J Chen - Nano Letters, 2024 - ACS Publications
Building on current explorations in chronic optical neural interfaces, it is essential to address
the risk of photothermal damage in traditional optogenetics. By focusing on calcium …
the risk of photothermal damage in traditional optogenetics. By focusing on calcium …
[HTML][HTML] Multimodal analysis demonstrating the shaping of functional gradients in the marmoset brain
C Tong, C Liu, K Zhang, B Bo, Y Xia, H Yang… - Nature …, 2022 - nature.com
The discovery of functional gradients introduce a new perspective in understanding the
cortical spectrum of intrinsic dynamics, as it captures major axes of functional connectivity in …
cortical spectrum of intrinsic dynamics, as it captures major axes of functional connectivity in …
[HTML][HTML] Network communication models narrow the gap between the modular organization of structural and functional brain networks
Structural and functional brain networks are modular. Canonical functional systems, such as
the default mode network, are well-known modules of the human brain and have been …
the default mode network, are well-known modules of the human brain and have been …
[PDF][PDF] Controversies and progress on standardization of large-scale brain network nomenclature
Progress in scientific disciplines is accompanied by standardization of terminology. Network
neuroscience, at the level of macroscale organization of the brain, is beginning to confront …
neuroscience, at the level of macroscale organization of the brain, is beginning to confront …