Li Bo, Li Hao, Li Jun, Zhang Yuchen, Wang Xiaoying, Zhang Jue, Dong Li, Fang Jing
College of Engineering, Peking University, 100871, Beijing, P.R. China.
Academy for Advanced Interdisciplinary Studies, Peking University, 100871, Beijing, P.R. China.
Magn Reson Imaging. 2015 Sep;33(7):932-8. doi: 10.1016/j.mri.2015.03.009. Epub 2015 Apr 8.
In this study, we sought to investigate the feasibility of a new technique termed relaxation enhanced compressed sensing three-dimensional motion-sensitizing driven equilibrium prepared 3D rapid gradient echo sequence (RECS-3D MERGE).
The RECS-3D MERGE sequence consisted of a 3D MERGE sequence for imaging, a period of delay time (TD) for relaxation enhancement, and a pseudo-centric phase encoding order used for under-sampling acquisition to maintain scan efficiency. Seven healthy volunteers and six patients with 40% to 75% carotid artery stenosis were recruited in this study. Healthy subjects underwent 3D MERGE, RECS-3D MERGE and two-dimensional (2D) T1-weighted double inversion recovery fast spin echo (T1W DIR-FSE) scans. The signal ratio (SR) values of 21 RECS-3D MERGE scans were compared in order to determine the optimal scan parameter set of acceleration factor (AF) and delay time (TD) for RECS-3D MERGE sequence. Patients then underwent 3D MERGE, RECS-3D MERGE using the aforementioned optimal scan parameter set and 2D T1W DIR-FSE scans. Two radiologists, blinded to the imaging technique, qualitatively graded each image on a six-point ordinal scale.
The highest value of SR occurred with the scan parameter set of 3-fold AF and 800ms TD. Compared to 3D MERGE, RECS-3D MERGE with the parameter set significantly improved the image quality for both healthy subjects and patients experiments, while the scan efficiency was not sacrificed. And no significant differences were observed in the subjective scores of RECS-3D MERGE and 2D T1W DIR-FSE image qualities.
RECS-3D MERGE technique achieved significant improvement in black-blood image quality compared with 3D MERGE. And the image quality of this 3D rapid carotid black-blood imaging technique is comparable to 2D T1W DIR-FSE while it has much higher scan efficiency.
在本研究中,我们试图探究一种名为弛豫增强压缩感知三维运动敏感驱动平衡准备快速梯度回波序列(RECS - 3D MERGE)的新技术的可行性。
RECS - 3D MERGE序列由用于成像的三维MERGE序列、用于弛豫增强的延迟时间(TD)以及用于欠采样采集以保持扫描效率的伪中心相位编码顺序组成。本研究招募了7名健康志愿者和6名颈动脉狭窄程度为40%至75%的患者。健康受试者接受了三维MERGE、RECS - 3D MERGE和二维(2D)T1加权双反转恢复快速自旋回波(T1W DIR - FSE)扫描。比较了21次RECS - 3D MERGE扫描的信号比(SR)值,以确定RECS - 3D MERGE序列的最佳扫描参数集,即加速因子(AF)和延迟时间(TD)。然后患者接受三维MERGE、使用上述最佳扫描参数集的RECS - 3D MERGE以及二维T1W DIR - FSE扫描。两名对成像技术不知情的放射科医生,按照六点有序量表对每张图像进行定性分级。
SR的最高值出现在加速因子为3倍且延迟时间为800毫秒的扫描参数集下。与三维MERGE相比,使用该参数集的RECS - 3D MERGE在健康受试者和患者实验中均显著提高了图像质量,同时并未牺牲扫描效率。并且在RECS - 3D MERGE和二维T1W DIR - FSE图像质量的主观评分上未观察到显著差异。
与三维MERGE相比,RECS - 3D MERGE技术在黑血图像质量上有显著提高。并且这种三维快速颈动脉黑血成像技术的图像质量与二维T1W DIR - FSE相当,同时具有更高的扫描效率。
