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使用呼吸导航门控三维扰相梯度回波序列进行肝脏磁共振成像的优化技术。

Optimal techniques for magnetic resonance imaging of the liver using a respiratory navigator-gated three-dimensional spoiled gradient-recalled echo sequence.

作者信息

Inoue Yusuke, Hata Hirofumi, Nakajima Ai, Iwadate Yuji, Ogasawara Gou, Matsunaga Keiji

机构信息

Department of Diagnostic Radiology, Kitasato University School of Medicine, 1-15-1 Kitasato, Minami-ku, Sagamihara, Kanagawa 252-0374, Japan.

Department of Radiology, Kitasato University Hospital, Sagamihara, Kanagawa, Japan.

出版信息

Magn Reson Imaging. 2014 Oct;32(8):975-80. doi: 10.1016/j.mri.2014.05.013. Epub 2014 Jun 21.

DOI:10.1016/j.mri.2014.05.013
PMID:24960368
Abstract

PURPOSE

To optimize the navigator-gating technique for the acquisition of high-quality three-dimensional spoiled gradient-recalled echo (3D SPGR) images of the liver during free breathing.

MATERIALS AND METHODS

Ten healthy volunteers underwent 3D SPGR magnetic resonance imaging of the liver using a conventional navigator-gated 3D SPGR (cNAV-3D-SPGR) sequence or an enhanced navigator-gated 3D SPGR (eNAV-3D-SPGR) sequence. No exogenous contrast agent was used. A 20-ms wait period was inserted between the 3D SPGR acquisition component and navigator component of the eNAV-3D-SPGR sequence to allow T1 recovery. Visual evaluation and calculation of the signal-to-noise ratio were performed to compare image quality between the imaging techniques.

RESULT

The eNAV-3D-SPGR sequence provided better noise properties than the cNAV-3D-SPGR sequence visually and quantitatively. Navigator gating with an acceptance window of 2mm effectively inhibited respiratory motion artifacts. The widening of the window to 6mm shortened the acquisition time but increased motion artifacts, resulting in degradation of overall image quality. Neither slice tracking nor incorporation of short breath holding successfully compensated for the widening of the window.

CONCLUSION

The eNAV-3D-SPGR sequence with an acceptance window of 2mm provides high-quality 3D SPGR images of the liver.

摘要

目的

优化导航门控技术,以在自由呼吸期间获取肝脏的高质量三维扰相梯度回波(3D SPGR)图像。

材料与方法

10名健康志愿者使用传统导航门控3D SPGR(cNAV-3D-SPGR)序列或增强型导航门控3D SPGR(eNAV-3D-SPGR)序列进行肝脏的3D SPGR磁共振成像。未使用外源性对比剂。在eNAV-3D-SPGR序列的3D SPGR采集部分和导航部分之间插入20毫秒的等待期,以实现T1恢复。通过视觉评估和信噪比计算来比较成像技术之间的图像质量。

结果

eNAV-3D-SPGR序列在视觉和定量方面比cNAV-3D-SPGR序列具有更好的噪声特性。接受窗口为2毫米的导航门控有效地抑制了呼吸运动伪影。将窗口扩大到6毫米缩短了采集时间,但增加了运动伪影,导致整体图像质量下降。切片跟踪和短暂屏气均未能成功补偿窗口扩大的影响。

结论

接受窗口为2毫米的eNAV-3D-SPGR序列可提供肝脏的高质量3D SPGR图像。

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