通过优化重度 T2 加权 3D-FLAIR，提高对低浓度钆对比剂的敏感性，以可视化内淋巴间隙。

Increased sensitivity to low concentration gadolinium contrast by optimized heavily T2-weighted 3D-FLAIR to visualize endolymphatic space.

机构信息

Department of Radiology, Nagoya University Graduate School of Medicine, Shouwa-ku, Nagoya, Japan.

出版信息

Magn Reson Med Sci. 2010;9(2):73-80. doi: 10.2463/mrms.9.73.

DOI:10.2463/mrms.9.73

PMID:20585197

Abstract

PURPOSE

To increase the sensitivity of 3-dimensional fluid-attenuated inversion recovery (3D-FLAIR) to low concentration gadolinium (Gd)-based contrast medium, we optimized sequence parameters on a phantom and evaluated the optimized sequence in patients suspicious for endolymphatic hydrops.

MATERIALS AND METHODS

All scans were performed on a 3-tesla magnetic resonance (MR) unit using a 32-channel head coil. We optimized sequence parameters using a phantom filled with diluted Gd and compared the optimized protocol with 3D-FLAIR using conventional turbo spin echo sequence (3D-FLAIR-CONV). Nine patients underwent scanning using the newly optimized sequence and 3D-FLAIR-CONV 4 hours after double-dose administration of intravenous Gd. We subjectively scored separation of endo- and perilymph space and measured contrast-to-noise ratio (CNR) between endo- and perilymph.

RESULTS

The optimized sequence in the phantom study consisted of: repetition time, 9000 ms; echo time, 540 ms; inversion time, 2400 ms; low constant readout flip angle, 120 degrees in the later part of the echo train. Image contrast became heavily T(2)-weighted (hT(2)W-3D-FLAIR). In patients, we recognized endolymphatic space for both the cochlea and vestibule significantly better by hT(2)W-3D-FLAIR than 3D-FLAIR-CONV (P<0.01). The mean CNR of the new method was also better than that of 3D-FLAIR-CONV (P<0.01).

CONCLUSIONS

The newly optimized hT(2)W-3D-FLAIR was more sensitive than the previous method to low concentration of Gd. Visualization of the endolymphatic space by double-dose administration of intravenous Gd would be more reliable using hT(2)W-3D-FLAIR.

摘要

目的

为了提高低浓度钆（Gd）基造影剂的三维液体衰减反转恢复（3D-FLAIR）的灵敏度，我们在体模上优化了序列参数，并在疑似内淋巴积水的患者中评估了优化后的序列。

材料与方法

所有扫描均在 3 特斯拉磁共振（MR）设备上使用 32 通道头部线圈完成。我们使用充满稀释 Gd 的体模优化了序列参数，并将优化后的方案与使用传统的涡轮自旋回波序列（3D-FLAIR-CONV）的 3D-FLAIR 进行了比较。9 例患者在静脉注射 Gd 双倍剂量后 4 小时接受了新优化序列和 3D-FLAIR-CONV 的扫描。我们主观地对内外淋巴间隙的分离进行评分，并测量内外淋巴之间的对比噪声比（CNR）。

结果

体模研究中的优化序列包括：重复时间，9000ms；回波时间，540ms；反转时间，2400ms；低恒定读出翻转角，在回波链的后期为 120 度。图像对比度变得高度 T2 加权（hT2W-3D-FLAIR）。在患者中，我们通过 hT2W-3D-FLAIR 比 3D-FLAIR-CONV 更明显地识别出耳蜗和前庭的内淋巴空间（P<0.01）。新方法的平均 CNR 也优于 3D-FLAIR-CONV（P<0.01）。

结论

与之前的方法相比，新优化的 hT2W-3D-FLAIR 对低浓度 Gd 更敏感。使用 hT2W-3D-FLAIR 进行静脉注射 Gd 双倍剂量给药后，内淋巴空间的可视化将更加可靠。

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通过优化重度 T2 加权 3D-FLAIR，提高对低浓度钆对比剂的敏感性，以可视化内淋巴间隙。

Increased sensitivity to low concentration gadolinium contrast by optimized heavily T2-weighted 3D-FLAIR to visualize endolymphatic space.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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