用于快速三维T1映射和脂肪/水分离T1映射的磁化准备GRASP磁共振成像
Magnetization-prepared GRASP MRI for rapid 3D T1 mapping and fat/water-separated T1 mapping.
作者信息
Feng Li, Liu Fang, Soultanidis Georgios, Liu Chenyu, Benkert Thomas, Block Kai Tobias, Fayad Zahi A, Yang Yang
机构信息
Biomedical Engineering and Imaging Institute and Department of Radiology, Icahn School of Medicine at Mount Sinai, New York, NY, USA.
Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, MA, USA.
出版信息
Magn Reson Med. 2021 Jul;86(1):97-114. doi: 10.1002/mrm.28679. Epub 2021 Feb 13.
PURPOSE
This study aimed to (i) develop Magnetization-Prepared Golden-angle RAdial Sparse Parallel (MP-GRASP) MRI using a stack-of-stars trajectory for rapid free-breathing T1 mapping and (ii) extend MP-GRASP to multi-echo acquisition (MP-Dixon-GRASP) for fat/water-separated (water-specific) T1 mapping.
METHODS
An adiabatic non-selective 180° inversion-recovery pulse was added to a gradient-echo-based golden-angle stack-of-stars sequence for magnetization-prepared 3D single-echo or 3D multi-echo acquisition. In combination with subspace-based GRASP-Pro reconstruction, the sequence allows for standard T1 mapping (MP-GRASP) or fat/water-separated T1 mapping (MP-Dixon-GRASP), respectively. The accuracy of T1 mapping using MP-GRASP was evaluated in a phantom and volunteers (brain and liver) against clinically accepted reference methods. The repeatability of T1 estimation was also assessed in the phantom and volunteers. The performance of MP-Dixon-GRASP for water-specific T1 mapping was evaluated in a fat/water phantom and volunteers (brain and liver).
RESULTS
ROI-based mean T1 values are correlated between the references and MP-GRASP in the phantom (R = 1.0), brain (R = 0.96), and liver (R = 0.73). MP-GRASP achieved good repeatability of T1 estimation in the phantom (R = 1.0), brain (R = 0.99), and liver (R = 0.82). Water-specific T1 is different from in-phase and out-of-phase composite T1 (composite T1 when fat and water signal are mixed in phase or out of phase) both in the phantom and volunteers.
CONCLUSION
This work demonstrated the initial performance of MP-GRASP and MP-Dixon-GRASP MRI for rapid 3D T1 mapping and 3D fat/water-separated T1 mapping in the brain (without motion) and in the liver (during free breathing). With fat/water-separated T1 estimation, MP-Dixon-GRASP could be potentially useful for imaging patients with fatty-liver diseases.
目的
本研究旨在(i)使用星状堆叠轨迹开发磁化准备的黄金角径向稀疏并行(MP-GRASP)MRI,用于快速自由呼吸T1映射;(ii)将MP-GRASP扩展到多回波采集(MP-Dixon-GRASP),用于脂肪/水分离(水特异性)T1映射。
方法
将绝热非选择性180°反转恢复脉冲添加到基于梯度回波的黄金角星状堆叠序列中,用于磁化准备的3D单回波或3D多回波采集。结合基于子空间的GRASP-Pro重建,该序列分别允许进行标准T1映射(MP-GRASP)或脂肪/水分离T1映射(MP-Dixon-GRASP)。使用MP-GRASP进行T1映射的准确性在体模和志愿者(大脑和肝脏)中与临床认可的参考方法进行了评估。T1估计的重复性也在体模和志愿者中进行了评估。MP-Dixon-GRASP用于水特异性T1映射的性能在脂肪/水体模和志愿者(大脑和肝脏)中进行了评估。
结果
基于感兴趣区域的平均T1值在体模(R = 1.0)、大脑(R = 0.96)和肝脏(R = 0.73)中,参考方法与MP-GRASP之间具有相关性。MP-GRASP在体模(R = 1.0)、大脑(R = 0.99)和肝脏(R = 0.82)中实现了良好的T1估计重复性。在体模和志愿者中,水特异性T1与同相和反相复合T1(脂肪和水信号同相或反相混合时的复合T1)不同。
结论
这项工作展示了MP-GRASP和MP-Dixon-GRASP MRI在大脑(无运动)和肝脏(自由呼吸期间)中进行快速3D T1映射和3D脂肪/水分离T1映射的初步性能。通过脂肪/水分离T1估计,MP-Dixon-GRASP可能对脂肪肝疾病患者的成像有潜在帮助。
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