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带有扩散加权预脉冲的快速高分辨率磁共振神经成像。

Rapid high resolution MR neurography with a diffusion-weighted pre-pulse.

机构信息

Yaesu Clinic, C-Road Building 4F, 2-1-18 Nihonbashi, Chuo-ku, Tokyo, Japan.

出版信息

Magn Reson Med Sci. 2013;12(2):111-9. doi: 10.2463/mrms.2012-0063. Epub 2013 May 10.

DOI:10.2463/mrms.2012-0063
PMID:23666153
Abstract

PURPOSE

To introduce, optimize, and assess the feasibility of a new scheme to rapidly acquire high-resolution volumetric neurographic images using a three-dimensional turbo spin-echo sequence combined with a diffusion-weighted pre-pulse called improved motion-sensitized driven equilibrium (iMSDE): Diffusion-prepared MR Neurography (D-prep MRN).

METHODS

In order to optimize the signal suppression of blood vessels and muscle at D-prep MRN, coronal lumbosacral plexus images were acquired in five volunteers at 3T, and the following parameters were examined: iMSDE gradient-strength (b-value) of 0, 2 and 10 s/mm² (with the aim to suppress blood vessels) and iMSDE preparation duration (iMSDEprep-time) of 18, 50 and 100 ms (with the aim to suppress muscle signal). Subsequently, the feasibility of the optimized D-prep MRN sequence in visualizing the brachial plexus, lumbosacral plexus, and cranial nerves was evaluated in 5 healthy volunteers.

RESULTS

A higher b-value of 10 s/mm² was better in signal suppression of blood vessels, whereas an intermediate iMSDEprep-time of 50 ms provided the best compromise between suppression of muscle signal and minimization of signal loss of nerves. With these parameters, the normal nerve structures showed high signal intensity, while the blood vessels and muscles were effectively suppressed. The optimized D-prep MRN sequence clearly showed the three-dimensional trajectory of the brachial plexus, lumbosacral plexus, and cranial nerves.

CONCLUSION

D-prep MRN was introduced and optimized, and clearly showed detailed anatomy of the brachial plexus, lumbosacral plexus, and cranial nerves. These results suggest that the D-prep MRN can be used for fast, high-resolution, volumetric imaging of the peripheral nervous system.

摘要

目的

介绍、优化并评估一种新方案的可行性,该方案使用三维涡轮自旋回波序列结合称为改良运动敏感驱动平衡(iMSDE)的扩散加权预脉冲,快速获取高分辨率容积神经图像:扩散准备磁共振神经成像(D-prep MRN)。

方法

为了优化 D-prep MRN 中血管和肌肉的信号抑制,在 5 名志愿者中在 3T 下采集冠状腰骶丛图像,并检查了以下参数:iMSDE 梯度强度(b 值)为 0、2 和 10 s/mm²(旨在抑制血管)和 iMSDE 准备时间(iMSDEprep-time)为 18、50 和 100 ms(旨在抑制肌肉信号)。随后,在 5 名健康志愿者中评估了优化后的 D-prep MRN 序列在可视化臂丛、腰骶丛和颅神经中的可行性。

结果

10 s/mm²的较高 b 值在抑制血管信号方面效果更好,而 50 ms 的中等 iMSDEprep-time 在抑制肌肉信号和最小化神经信号损失之间提供了最佳折衷。使用这些参数,正常神经结构显示出高信号强度,而血管和肌肉则被有效抑制。优化后的 D-prep MRN 序列清楚地显示了臂丛、腰骶丛和颅神经的三维轨迹。

结论

引入并优化了 D-prep MRN,清晰显示了臂丛、腰骶丛和颅神经的详细解剖结构。这些结果表明,D-prep MRN 可用于快速、高分辨率、容积成像外周神经系统。

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