使用各向同性3D T2 STIR（短TI反转恢复）SPACE序列和扩散张量成像对臂丛神经进行高分辨率和功能磁共振成像。

High-resolution and functional magnetic resonance imaging of the brachial plexus using an isotropic 3D T2 STIR (Short Term Inversion Recovery) SPACE sequence and diffusion tensor imaging.

作者信息

Viallon M, Vargas M I, Jlassi H, Lövblad K O, Delavelle J

机构信息

Department of Radiology, University Hospital of Geneva, Rue Micheli du Crest, 24, 1211 Geneva, Switzerland.

出版信息

Eur Radiol. 2008 May;18(5):1018-23. doi: 10.1007/s00330-007-0834-4. Epub 2008 Jan 8.

DOI:10.1007/s00330-007-0834-4

PMID:18180925

Abstract

This technical note demonstrates the relevance of the isotropic 3D T2 turbo-spin-echo (TSE) sequence with short-term inversion recovery (STIR) and variable flip angle RF excitations (SPACE: Sampling Perfection with Application optimized Contrasts using different flip angle Evolutions) for high-resolution brachial plexus imaging. The sequence was used in 11 patients in the diagnosis of brachial plexus pathologies involving primary and secondary tumors, and in six volunteers. We show that 3D STIR imaging is not only a reliable alternative to 2D STIR imaging, but it also better evaluates the anatomy, nerve site compression and pathology of the plexus, especially to depict space-occupying tumors along its course. Finally, due to its appropriate contrast we describe how 3D-STIR can be used as a high-resolution mask to be fused with fraction of anisotropy (FA) maps calculated from diffusion tensor imaging (DTI) data of the plexus.

摘要

本技术说明展示了具有短期反转恢复（STIR）和可变翻转角射频激励（SPACE：使用不同翻转角演变的应用优化对比度的采样完美）的各向同性3D T2涡轮自旋回波（TSE）序列对高分辨率臂丛神经成像的相关性。该序列用于11例诊断涉及原发性和继发性肿瘤的臂丛神经病变患者以及6名志愿者。我们表明，3D STIR成像不仅是2D STIR成像的可靠替代方法，而且还能更好地评估臂丛神经的解剖结构、神经部位压迫和病变，特别是描绘沿其走行的占位性肿瘤。最后，由于其适当的对比度，我们描述了如何将3D-STIR用作高分辨率掩码，与根据臂丛神经扩散张量成像（DTI）数据计算的各向异性分数（FA）图融合。

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使用各向同性3D T2 STIR（短TI反转恢复）SPACE序列和扩散张量成像对臂丛神经进行高分辨率和功能磁共振成像。

High-resolution and functional magnetic resonance imaging of the brachial plexus using an isotropic 3D T2 STIR (Short Term Inversion Recovery) SPACE sequence and diffusion tensor imaging.

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