The WU-Minn Human Connectome Project (HCP) is a publicly-available dataset containing state-of-the-art structural magnetic resonance imaging (MRI), functional MRI (fMRI), and diffusion MRI (dMRI) for over a thousand healthy subjects. While the planned scope of the HCP included an anatomic connectome, resting-state fMRI (rs-fMRI) forms the bulk of the HCP's current connectomic output. We address this by presenting a full-cortex connectome derived from probabilistic diffusion tractography and organized into the HCP-MMP1.0 atlas. Probabilistic methods and large sample sizes are preferable for whole-connectome mapping as they increase the fidelity of traced low-probability connections. We find that overall, connection strengths are lognormally ...
This repository complements the paper submitted to Scientific Data named A multi-scale probabilistic...
Building a human connectome database has recently attracted the attention of many researchers, altho...
AbstractBuilding a human connectome database has recently attracted the attention of many researcher...
The WU-Minn Human Connectome Project (HCP) is a publicly-available dataset containing state-of-the-a...
This is a collection of the results data for the bioRxiv preprint of the same name: https://doi.org/...
The human brain is a complex system that can be efficiently represented as a network of structural c...
Systematic mapping of long-distance pathways in the human brain (the "macro-connectome") represents ...
The global structural connectivity of the brain, the human connectome, is now accessible at millimet...
The Human Connectome Project (HCP) is a collaborative 5-year effort to map human brain connections a...
PURPOSE: Human connectomics necessitates high-throughput, whole-brain reconstruction of multiple whi...
International audienceTractography combined with regions of interest (ROIs) has been used to non-inv...
The Human Connectome Project (HCP) relies primarily on three complementary magnetic resonance (MR) m...
We mapped functional and structural brain networks for more than 40,000 UK Biobank participants. Str...
This repository complements the paper submitted to Scientific Data named A multi-scale probabilistic...
Building a human connectome database has recently attracted the attention of many researchers, altho...
AbstractBuilding a human connectome database has recently attracted the attention of many researcher...
The WU-Minn Human Connectome Project (HCP) is a publicly-available dataset containing state-of-the-a...
This is a collection of the results data for the bioRxiv preprint of the same name: https://doi.org/...
The human brain is a complex system that can be efficiently represented as a network of structural c...
Systematic mapping of long-distance pathways in the human brain (the "macro-connectome") represents ...
The global structural connectivity of the brain, the human connectome, is now accessible at millimet...
The Human Connectome Project (HCP) is a collaborative 5-year effort to map human brain connections a...
PURPOSE: Human connectomics necessitates high-throughput, whole-brain reconstruction of multiple whi...
International audienceTractography combined with regions of interest (ROIs) has been used to non-inv...
The Human Connectome Project (HCP) relies primarily on three complementary magnetic resonance (MR) m...
We mapped functional and structural brain networks for more than 40,000 UK Biobank participants. Str...
This repository complements the paper submitted to Scientific Data named A multi-scale probabilistic...
Building a human connectome database has recently attracted the attention of many researchers, altho...
AbstractBuilding a human connectome database has recently attracted the attention of many researcher...