Affiliation:
1. Department of Biomedical Engineering University of Basel Basel Switzerland
2. Division of Radiological Physics, Department of Radiology University Hospital Basel Basel Switzerland
Abstract
AbstractPurposeTo investigate the prospects of a multigradient‐echo (mGRE) acquisition for in vivo myelin water imaging at 0.55 T.MethodsScans were performed on the brain of four healthy volunteers at 0.55 and 3 T, using a 3D mGRE sequence. The myelin water fraction (MWF) was calculated for both field strengths using a nonnegative least squares (NNLS) algorithm, implemented in the qMRLab suite. The quality of these maps as well as single‐voxel fits were compared visually for 0.55 and 3 T.ResultsThe obtained MWF values at 0.55 T are consistent with previously reported ones at higher field strengths. The MWF maps are a considerable improvement over the ones at 3 T. Example fits show that 0.55 T data is better described by an exponential model than 3 T data, making the assumed multi‐exponential model of the NNLS algorithm more accurate.ConclusionThis first assessment shows that mGRE myelin water imaging at 0.55 T is feasible and has the potential to yield better results than at higher fields.
Funder
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung
Subject
Radiology, Nuclear Medicine and imaging