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使用3D SHINKEI的臂丛神经磁共振成像:与传统磁共振序列在1.5T场强下对臂丛神经解剖结构可视化及神经损伤检测的比较评估

Magnetic Resonance Neurography of the Brachial Plexus Using 3D SHINKEI: Comparative Evaluation with Conventional Magnetic Resonance Sequences for the Visualization of Anatomy and Detection of Nerve Injury at 1.5T.

作者信息

Nair Prashant Prabhakaran, Mariappan Yogesh K, Paruthikunnan Samir M, Kamath Asha, Rolla Narayana K, Saha Indrajit, Kadavigere Rajagopal

机构信息

Department of Radiodiagnosis and Imaging, Kasturba Medical College Manipal, Manipal Academy of Higher Education, Bengaluru, Karnataka, India.

Philips India Ltd., Bengaluru, Karnataka, India.

出版信息

J Med Phys. 2021 Jul-Sep;46(3):140-147. doi: 10.4103/jmp.JMP_13_21. Epub 2021 Sep 8.

DOI:10.4103/jmp.JMP_13_21
PMID:34703097
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8491319/
Abstract

BACKGROUND AND PURPOSE

This work aims at optimizing and studying the feasibility of imaging the brachial plexus at 1.5T using 3D nerve-SHeath signal increased with INKed rest-tissue RARE imaging (3D SHINKEI) neurography sequence by comparing with routine sequences.

MATERIALS AND METHODS

The study was performed on a 1.5T Achieva scanner. It was designed in two parts: (a) Optimization of SHINKEI sequence at 1.5T; and (b) Feasibility study of the optimized SHINKEI sequence for generating clinical quality magnetic resonance neurography images at 1.5T. Simulations and volunteer experiments were conducted to optimize the T2 preparation duration for optimum nerve-muscle contrast at 1.5T. Images from the sequence under study and other routine sequences from 24 patients clinically referred for brachial plexus imaging were scored by a panel of radiologists for diagnostic quality. Injury detection efficacy of these sequences were evaluated against the surgical information available from seven patients.

RESULTS

T2 preparation duration of 50 ms gives the best contrast to noise between nerve and muscle. The images of 3D SHINKEI and short-term inversion recovery turbo spin-echo sequences are of similar diagnostic quality but significantly better than diffusion weighted imaging with background signal suppression. In comparison with the surgical findings, 3D SHINKEI has the lowest specificity; however, it had the highest sensitivity and predictive efficacy compared to other routine sequences.

CONCLUSION

3D SHINKEI sequence provides a good nerve-muscle contrast and has high predictive efficacy of nerve injury, indicating that it is a potential screening sequence candidate for brachial plexus scans at 1.5T also.

摘要

背景与目的

本研究旨在通过与常规序列比较,优化并研究在1.5T场强下使用3D神经鞘信号增强的INKed静止组织RARE成像(3D SHINKEI)神经成像序列对臂丛神经进行成像的可行性。

材料与方法

研究在一台1.5T的Achieva扫描仪上进行。研究分为两个部分:(a)1.5T场强下SHINKEI序列的优化;(b)优化后的SHINKEI序列在1.5T场强下生成临床质量磁共振神经成像图像的可行性研究。通过模拟和志愿者实验来优化T2准备时长,以在1.5T场强下获得最佳的神经-肌肉对比度。一组放射科医生对24例因臂丛神经成像而临床转诊患者的研究序列图像和其他常规序列图像的诊断质量进行评分。根据7例患者的手术信息评估这些序列的损伤检测效能。

结果

50毫秒的T2准备时长可使神经与肌肉之间的对比度与噪声比最佳。3D SHINKEI序列和短时反转恢复快速自旋回波序列的图像具有相似的诊断质量,但明显优于背景信号抑制扩散加权成像。与手术结果相比,3D SHINKEI序列的特异性最低;然而,与其他常规序列相比,其灵敏度和预测效能最高。

结论

3D SHINKEI序列提供了良好的神经-肌肉对比度,并且对神经损伤具有较高的预测效能,表明它也是1.5T场强下臂丛神经扫描潜在的筛查序列候选者。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5a0/8491319/39096add3fc4/JMP-46-140-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5a0/8491319/39096add3fc4/JMP-46-140-g009.jpg

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3
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