The Human Connectome Project and Beyond: Initial Applications of 300 MT/m Gradients

Overview

Journal Neuroimage

Specialty Radiology

Date 2013 May 29

PMID 23711537

Citations 177

Authors

Jennifer A McNab

Brian L Edlow

Thomas Witzel

Susie Y Huang

Himanshu Bhat

Keith Heberlein

Thorsten Feiweier

Kecheng Liu

Boris Keil

Julien Cohen-Adad

M Dylan Tisdall

Rebecca D Folkerth

Hannah C Kinney

Lawrence L Wald

Affiliations

Soon will be listed here.

Abstract

The engineering of a 3 T human MRI scanner equipped with 300 mT/m gradients - the strongest gradients ever built for an in vivo human MRI scanner - was a major component of the NIH Blueprint Human Connectome Project (HCP). This effort was motivated by the HCP's goal of mapping, as completely as possible, the macroscopic structural connections of the in vivo healthy, adult human brain using diffusion tractography. Yet, the 300 mT/m gradient system is well suited to many additional types of diffusion measurements. Here, we present three initial applications of the 300 mT/m gradients that fall outside the immediate scope of the HCP. These include: 1) diffusion tractography to study the anatomy of consciousness and the mechanisms of brain recovery following traumatic coma; 2) q-space measurements of axon diameter distributions in the in vivo human brain and 3) postmortem diffusion tractography as an adjunct to standard histopathological analysis. We show that the improved sensitivity and diffusion-resolution provided by the gradients are rapidly enabling human applications of techniques that were previously possible only for in vitro and animal models on small-bore scanners, thereby creating novel opportunities to map the microstructure of the human brain in health and disease.

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