Ali Al-Radaideh1, Olivier Mougin1,
Su-Yin Lim2, Christopher Tench2, Cris Constantinescu2,
Penny Gowland1
1Sir Peter Mansfield MR Centre, The
University Of Nottingham, Nottingham, Nottinghamshire, United Kingdom; 2Clinical
Neurology, The University Of Nottingham, Nottingham, Nottinghamshire, United
Kingdom
Magnetization
transfer (MT) is an important MRI measure in MS and the MT effect can be
assessed qualitatively using magnetization transfer ratio (MTR) maps.A
distinctive peak is observed in the z -spectrum of the human brain, at -1.05k
Hz offset from the water frequency at 7T. This is caused by endogenous
chemical exchange saturation transfer (CEST) between amide (chemical group
attached to the peptide bond) and water protons. Here we obtain MTR images
for negative (MTR- sensitive to MT + CEST effects) and positive (MTR+
sensitive to just MT effects) frequency offsets of the saturation and compare
the distributions of these parameters in NAWM of healthy controls and
patients with Clinically Isolated Syndrome (CIS: a condition that is likely
to lead to MS).