Julien
Sngas1, Stefanie Remmele1, Wei Liu2
1Philips Research Europe,
T2
measurements provide important information about the mobility and chemical
environment of water in the tissue of interest. The most frequent method for
accurate T2 quantification uses multi-echo spin-echo (MESE incorporating
multiple refocusing pulses in each repetition time following the CPMG
sequence. To cover a wide range of T2 values, the number of spin echoes and
corresponding RF pulses needs to be relatively large, resulting in increased
TR, long scan durations, and a high SAR. Recently, a fast T2 mapping method,
reducing the total number of phase encoding steps of a MESE sequence without
sacrificing spatial resolution nor the dynamic range of T2 values, was
proposed and evaluated in simulations and pre-clinical experiments. In this
work, the accuracy of this acceleration technique for T2 mapping in the human
brain was assessed in a larger group of volunteers.