A core goal of human connectomics is to characterise the neural pathways that underlie brain function. This can be largely achieved noninvasively by inferring white matter connectivity using diffusion MRI data. However, there are challenges. First, diffusion tractography is blind to directed connections, or whether a connection is expressed functionally. Second, we need to be able to go beyond the characterization of anatomical pathways, to understand distributed brain function that results from them. In particular, we need to characterise effective connectivity using functional imaging modalities, such as FMRI and M/EEG, to understand its context-sensitivity (e.g., modulation by task), and how it changes with synaptic plasticity. Here, we ...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Systematic mapping of long-distance pathways in the human brain (the "macro-connectome") represents ...
Understanding the large-scale structural network formed by neurons is a major challenge in system ne...
A core goal of human connectomics is to characterise the neural pathways that underlie brain functio...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
There are many ways to model properties of the brain from magnetic resonance imaging (MRI) data. One...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
Diffusion magnetic resonance imaging (dMRI) allows us to noninvasively investigate the microstructur...
The study of complex computational systems is facilitated by network maps, such as circuit diagrams....
<div><p>Investigating the relationship between brain structure and function is a central endeavor fo...
Introduction: The breadth of information afforded by multimodal brain imaging can substantially adva...
The brain is a complex neural network with a hierarchical organization and the mapping of its elemen...
We mapped functional and structural brain networks for more than 40,000 UK Biobank participants. Str...
Neural brain connectivity has three aspects: a physical connection between different brain regions –...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Systematic mapping of long-distance pathways in the human brain (the "macro-connectome") represents ...
Understanding the large-scale structural network formed by neurons is a major challenge in system ne...
A core goal of human connectomics is to characterise the neural pathways that underlie brain functio...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
There are many ways to model properties of the brain from magnetic resonance imaging (MRI) data. One...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
Diffusion magnetic resonance imaging (dMRI) allows us to noninvasively investigate the microstructur...
The study of complex computational systems is facilitated by network maps, such as circuit diagrams....
<div><p>Investigating the relationship between brain structure and function is a central endeavor fo...
Introduction: The breadth of information afforded by multimodal brain imaging can substantially adva...
The brain is a complex neural network with a hierarchical organization and the mapping of its elemen...
We mapped functional and structural brain networks for more than 40,000 UK Biobank participants. Str...
Neural brain connectivity has three aspects: a physical connection between different brain regions –...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Systematic mapping of long-distance pathways in the human brain (the "macro-connectome") represents ...
Understanding the large-scale structural network formed by neurons is a major challenge in system ne...