Varian Technologies Japan Limited, Tokyo, Japan.
J Magn Reson Imaging. 2013 Nov;38(5):1245-50. doi: 10.1002/jmri.24023. Epub 2013 Feb 6.
To evaluate the accuracy of an equilibrium magnetization (M0 ) map obtained using a two-dimensional (2D) spoiled gradient-recalled echo (SPGR) pulse sequence with variable flip angle (VFA).
Single-slice 2D SPGR images of 4% agar gel phantoms with different gadolinium-diethylene triamine pentaacetic acid (Gd-DTPA) concentrations (0-1 mM) were obtained with a VFA (2-30°). The 2D SPGR-VFA data were acquired with different repetition times (TRs; 7.8-117.2 ms), Gaussian and sinc RF pulses, and different field strengths (4.7, 7, and 9.4 Tesla). M0 and T1 maps were calculated from the 2D SPGR-VFA data. M0 and T1 values were compared with those calculated from free-relaxed 2D gradient-recalled echo (GRE) images and inversion recovery-prepared 2D SPGR images. The M0 and T1 slice profiles were also investigated.
Consistent M0 values were obtained, regardless of the different Gd concentrations, TRs, and pulse sequences. The M0 slice profiles calculated from the sliced SPGR-VFA data quantitatively reproduced those calculated from the free-relaxed sliced GRE. In contrast, the T1 values calculated from the 2D SPGR-VFA data were underestimated at a high Gd concentration, short TR, and Gaussian RF pulse.
M0 values calculated from 2D SPGR-VFA images are highly quantitative.
评估使用二维(2D)扰相梯度回波(SPGR)脉冲序列和可变翻转角(VFA)获得的平衡磁化(M0)图的准确性。
使用 VFA(2-30°)获得具有不同钆二乙烯三胺五乙酸(Gd-DTPA)浓度(0-1mM)的 4%琼脂凝胶体的单层 2D SPGR 图像。以不同重复时间(TR;7.8-117.2ms)、高斯和 sinc RF 脉冲和不同场强(4.7、7 和 9.4Tesla)采集 2D SPGR-VFA 数据。从 2D SPGR-VFA 数据中计算 M0 和 T1 图。将 M0 和 T1 值与从自由弛豫的 2D 梯度回波(GRE)图像和反转恢复准备的 2D SPGR 图像计算出的值进行比较。还研究了 M0 和 T1 切片廓线。
无论 Gd 浓度、TR 和脉冲序列如何,都可以获得一致的 M0 值。从切片 SPGR-VFA 数据计算出的 M0 切片廓线定量再现了从自由弛豫的切片 GRE 计算出的 M0 切片廓线。相比之下,从 2D SPGR-VFA 数据计算出的 T1 值在高 Gd 浓度、短 TR 和高斯 RF 脉冲时被低估。
从 2D SPGR-VFA 图像计算出的 M0 值高度定量。