Add to ORKGExploring the anatomical and functional connectivities between different regions of the brain (the "Connectome") is a core challenge in neuroscience. While robust methods are available for the adult brain, mapping the connectome in neonates is highly challenging. The purpose of this pilot study is to present a methodological approach for analyzing structural connectivity of a neonate brain and to exploit the MP2RAGE sequence with its advantageous contrast propertie
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The developing Human Connectome Project (dHCP) aims to create a detailed 4-dimensional connectome of...
Globally, preterm birth (defined as birth at <37 weeks of gestation) affects around 11% of deliveri...
Exploring the anatomical and functional connectivities between different regions of the brain (the “...
Defining the structural and functional connectivity of the human brain (the human "connectome") is a...
The developing Human Connectome Project is set to create and make available to the scientific commun...
Improved understanding of how the human brain is "wired" on a macroscale may now be possible due to ...
Preterm infants develop differently than those born at term and are at higher risk of brain patholog...
MRI connectomics is an emerging approach to study the brain as a network of interconnected brain reg...
The human connectome is the result of an elaborate developmental trajectory. Acquiring diffusion-wei...
The human connectome is the result of an elaborate developmental trajectory. Acquiring diffusion-wei...
The Developing Human Connectome Project (dHCP) seeks to create the first 4-dimensional connectome of...
Background: Early brain development is closely dictated by distinct neurobiological principles. Here...
BACKGROUND: Early brain development is closely dictated by distinct neurobiological principles. Here...
The Developing Human Connectome Project (dHCP) is an Open Science project which provides the first l...
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The developing Human Connectome Project (dHCP) aims to create a detailed 4-dimensional connectome of...
Globally, preterm birth (defined as birth at <37 weeks of gestation) affects around 11% of deliveri...
Exploring the anatomical and functional connectivities between different regions of the brain (the “...
Defining the structural and functional connectivity of the human brain (the human "connectome") is a...
The developing Human Connectome Project is set to create and make available to the scientific commun...
Improved understanding of how the human brain is "wired" on a macroscale may now be possible due to ...
Preterm infants develop differently than those born at term and are at higher risk of brain patholog...
MRI connectomics is an emerging approach to study the brain as a network of interconnected brain reg...
The human connectome is the result of an elaborate developmental trajectory. Acquiring diffusion-wei...
The human connectome is the result of an elaborate developmental trajectory. Acquiring diffusion-wei...
The Developing Human Connectome Project (dHCP) seeks to create the first 4-dimensional connectome of...
Background: Early brain development is closely dictated by distinct neurobiological principles. Here...
BACKGROUND: Early brain development is closely dictated by distinct neurobiological principles. Here...
The Developing Human Connectome Project (dHCP) is an Open Science project which provides the first l...
MRI connectomics methods treat the brain as a network and provide new information about its organiza...
The developing Human Connectome Project (dHCP) aims to create a detailed 4-dimensional connectome of...
Globally, preterm birth (defined as birth at <37 weeks of gestation) affects around 11% of deliveri...