弥散准备磁共振神经成像(SHINKEI)联合高强度还原(HIRE)技术在腰骶丛的可视化改善。
Improved visualization of diffusion-prepared MR neurography (SHINKEI) in the lumbosacral plexus combining high-intensity reduction (HIRE) technique.
机构信息
Department of Radiological Services, Tokyo Women's Medical University, Tokyo, Japan.
Department of Diagnostic Imaging and Nuclear Medicine, Tokyo Women's Medical University, Tokyo, Japan.
出版信息
Magn Reson Imaging. 2020 Jun;69:22-27. doi: 10.1016/j.mri.2020.02.006. Epub 2020 Feb 12.
PURPOSE
This study attempted to improve visualization of the pelvic nervous system using the high-intensity reduction (HIRE)-nerve-SHeath signal increased with INKed rest-tissue RARE Imaging (SHINKEI) technique that involves subtracting signals of 3D heavily T2W images from SHINKEI images. We identified the optimum TE value for 3D heavily T2W images and assessed the usefulness of the HIRE-SHINKEI technique.
MATERIALS AND METHODS
Coronal lumbosacral plexus images were acquired from six healthy volunteers at 3 T. We optimized the TE of the 3D heavily T2-weighted (T2W) images in HIRE-SHINKEI and compared HIRE-SHINKEI images with conventional SHINKEI images with respect to nerve depiction, and vein, bladder, and cerebrospinal fluid (CSF) signal suppression using a 5-point scale.
RESULTS
In 3D heavily T2W images optimized by HIRE-SHINKEI technique, the signal corresponding to nerves became significantly lower at TE = 400 ms (p < 0.0005), while that of veins occurred at TE = 400 ms and 600 ms (p < 0.05). The suppression of bladder signals was significant at TE = 400, 600, and 800 ms (p < 0.05); however, there was no difference in signal inhibition from CSF at all TEs tested. Based on these results, an optimal TE of 600 ms was identified for 3D heavily T2W images; these images corresponded to the minimal loss of nerve signal and simultaneous maximum subtraction of signals from the bladder, vein, and CSF with dissimilar T2 values. Compared with SHINKEI images, the optimized HIRE-SHINKEI images selectively delineated nerves in greater detail, and along with significant signal suppression of the bladder (p < 0.0001) and veins (p < 0.05).
CONCLUSION
HIRE-SHINKEI can be used to better visualize the lumbosacral plexus with higher signal suppression of other pelvic structures. Such detailed Magnetic resonance neurography and selective depiction of nerves are useful for the diagnosis of peripheral nerve disorders.
目的
本研究试图通过高强度还原(HIRE)-神经-SHeath 信号增加的 INKed 静息组织 RARE 成像(SHINKEI)技术来改善骨盆神经系统的可视化效果,该技术涉及从 SHINKEI 图像中减去 3D 重度 T2W 图像的信号。我们确定了用于 3D 重度 T2W 图像的最佳 TE 值,并评估了 HIRE-SHINKEI 技术的有用性。
材料与方法
在 3T 下,从 6 名健康志愿者中采集冠状腰骶丛图像。我们优化了 HIRE-SHINKEI 中 3D 重度 T2 加权(T2W)图像的 TE,并使用 5 分制比较了 HIRE-SHINKEI 图像与常规 SHINKEI 图像在神经描绘、静脉、膀胱和脑脊液(CSF)信号抑制方面的差异。
结果
在通过 HIRE-SHINKEI 技术优化的 3D 重度 T2W 图像中,神经对应的信号在 TE=400ms 时显著降低(p<0.0005),而静脉的信号则在 TE=400ms 和 600ms 时降低(p<0.05)。膀胱信号的抑制在 TE=400、600 和 800ms 时均显著(p<0.05);然而,在所有测试的 TE 下,CSF 的信号抑制没有差异。基于这些结果,确定了 3D 重度 T2W 图像的最佳 TE 为 600ms;这些图像对应于神经信号最小损失,同时膀胱、静脉和 CSF 的信号最大程度地减去,这些信号的 T2 值不同。与 SHINKEI 图像相比,优化后的 HIRE-SHINKEI 图像可以更详细地选择性描绘神经,同时显著抑制膀胱(p<0.0001)和静脉(p<0.05)的信号。
结论
HIRE-SHINKEI 可用于更好地可视化腰骶丛,同时对其他骨盆结构的信号抑制更高。这种磁共振神经成像的详细信息和神经的选择性描绘对于外周神经疾病的诊断很有用。
Zotero 插件