Cutting edge of inner ear MRI.

Shinji Naganawa, Tsutomu Nakashima
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引用次数: 40

Abstract

Conclusion: Recent advances in clinical MR imagers, such as the 3-Tesla, multi-channel phased-array coil and novel pulse sequences, allow the evaluation of subtle alterations in the inner ear fluid environments and breakdown of the blood-labyrinthine barrier. Intratympanic injection of Gd-DTPA allows the imaging detection of endolymphatic hydrops in patients.

Objectives: To describe the current status of inner ear MRI and future directions for imaging.

Materials and methods: Based on our experiences and literature research, a brief review of the history and recent developments of inner ear MRI is presented.

Results: The 3D-FLAIR technique can detect abnormalities that could not be visualized previously in many inner ear diseases, such as sudden deafness, otosclerosis, lupus erythematosus, mumps, and Ramsay-Hunt syndrome. Imaging techniques, indications, and findings for the visualization of endolymphatic hydrops after intratympanic injection of Gd-DTPA are also discussed. This procedure enabled the visualization of endolymphatic hydrops in vivo. Newly developed 3D-real IR techniques and utilities of 32 channel coil are also presented.

内耳MRI切面。
结论:临床磁共振成像的最新进展,如3-特斯拉、多通道相控阵线圈和新型脉冲序列,可以评估内耳液体环境的细微变化和血液迷路屏障的破坏。鼓室内注射Gd-DTPA可以成像检测患者的内淋巴积液。目的:介绍内耳MRI的现状及未来的影像学发展方向。材料和方法:根据我们的经验和文献研究,简要回顾内耳MRI的历史和最新发展。结果:3D-FLAIR技术可以检测到突发性耳聋、耳硬化、红斑狼疮、腮腺炎、拉姆齐-亨特综合征等多种内耳疾病的异常。本文还讨论了鼓内注射Gd-DTPA后淋巴内积液的显像技术、适应症和结果。这种方法使体内内淋巴积液可视化。介绍了32通道线圈三维实景红外技术的最新进展及其应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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