Paper Info
Title
In-vivo estimates of axonal characteristics using optimized diffusion MRI protocols for single fibre orientation.
Abstract
This work presents diffusion MR protocols that allow estimation of axonal parameters like diameter and density in the live human brain. Previous approaches demand very high field experimental systems or suffer from long acquisition times and are therefore impractical for use in clinical studies. We propose a method that significantly reduces scan time by making use of the a-priori known fibre orientation in structures with well defined single fibre (SF) organisation like the corpus callosum (CC) and produces protocols that can be performed in under 25 minutes on a standard clinical system. Results from a computer simulation experiment show that our SF protocols can generate parameter estimates with similar precision to previously proposed orientation invariant (OI) protocols. Furthermore, we acquire the 20 minute long SF protocol and the 1 hour long OI protocol in a scan/rescan study on two healthy subjects and compare the axonal parameter maps from both protocols.
Year
DOI
Venue
2010
10.1007/978-3-642-15705-9_76
MICCAI
Keywords
Field
DocType
fibre orientation,in-vivo estimate,optimized diffusion,single fibre orientation,clinical study,oi protocol,axonal parameter,minute long sf protocol,sf protocol,mri protocol,axonal characteristic,diffusion mr protocol,axonal parameter map,long acquisition time,orientation invariant,computer simulation,diffusion mri,parameter estimation
Biomedical engineering,Diffusion MRI,Pattern recognition,Simulation,Computer science,Scan time,In vivo,High field,Artificial intelligence,Corpus callosum
Conference
Volume
Issue
ISSN
13
Pt 1
0302-9743
ISBN
Citations 
PageRank 
3-642-15704-1
1
0.36
References 
Authors
3
3
Name
Order
Citations
PageRank
Torben Schneider136014.68
C. A. Wheeler-kingshott260553.32
Daniel C. Alexander31553144.96