3D MRI数据集多平面重建的磁共振神经成像：解剖学研究与临床应用

MR neurography with multiplanar reconstruction of 3D MRI datasets: an anatomical study and clinical applications.

作者信息

Freund Wolfgang, Brinkmann Alexander, Wagner Florian, Dinse Alexander, Aschoff Andrik J, Stuber Gregor, Schmitz Bernd

机构信息

Clinic for Diagnostic and Interventional Radiology, University Hospitals Ulm, Steinhoevelstrasse 9, 89075 Ulm, Germany.

出版信息

Neuroradiology. 2007 Apr;49(4):335-41. doi: 10.1007/s00234-006-0197-6. Epub 2007 Jan 5.

DOI:10.1007/s00234-006-0197-6

PMID:17205312

Abstract

INTRODUCTION

Extracranial MR neurography has so far mainly been used with 2D datasets. We investigated the use of 3D datasets for peripheral neurography of the sciatic nerve.

METHODS

A total of 40 thighs (20 healthy volunteers) were examined with a coronally oriented magnetization-prepared rapid acquisition gradient echo sequence with isotropic voxels of 1 x 1 x 1 mm and a field of view of 500 mm. Anatomical landmarks were palpated and marked with MRI markers. After MR scanning, the sciatic nerve was identified by two readers independently in the resulting 3D dataset.

RESULTS

In every volunteer, the sciatic nerve could be identified bilaterally over the whole length of the thigh, even in areas of close contact to isointense muscles. The landmark of the greater trochanter was falsely palpated by 2.2 cm, and the knee joint by 1 cm. The mean distance between the bifurcation of the sciatic nerve and the knee-joint gap was 6 cm (+/-1.8 cm). The mean results of the two readers differed by 1-6%.

CONCLUSION

With the described method of MR neurography, the sciatic nerve was depicted reliably and objectively in great anatomical detail over the whole length of the thigh. Important anatomical information can be obtained. The clinical applications of MR neurography for the brachial plexus and lumbosacral plexus/sciatic nerve are discussed.

摘要

引言

迄今为止，颅外磁共振神经成像主要用于二维数据集。我们研究了三维数据集在坐骨神经周围神经成像中的应用。

方法

共有40条大腿（20名健康志愿者）接受检查，采用冠状位磁化准备快速采集梯度回波序列，各向同性体素大小为1×1×1毫米，视野为500毫米。触诊解剖标志并用磁共振成像标记物进行标记。磁共振扫描后，由两名阅片者在生成的三维数据集中独立识别坐骨神经。

结果

在每名志愿者中，双侧大腿全长均可识别出坐骨神经，即使在与等信号肌肉紧密接触的区域也是如此。大转子标志被错误触诊2.2厘米，膝关节被错误触诊1厘米。坐骨神经分叉与膝关节间隙之间的平均距离为6厘米（±1.8厘米）。两名阅片者的平均结果相差1%至6%。

结论

采用所述的磁共振神经成像方法，可在大腿全长可靠且客观地详细显示坐骨神经的解剖结构。可获得重要的解剖学信息。还讨论了磁共振神经成像在臂丛神经和腰骶丛/坐骨神经方面的临床应用。

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3D MRI数据集多平面重建的磁共振神经成像：解剖学研究与临床应用

MR neurography with multiplanar reconstruction of 3D MRI datasets: an anatomical study and clinical applications.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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