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3T 下内耳道和内耳的磁共振成像:3D 驱动平衡序列与 3D 平衡快速场回波序列的比较

MR imaging of the internal auditory canal and inner ear at 3T: comparison between 3D driven equilibrium and 3D balanced fast field echo sequences.

作者信息

Byun Jun Soo, Kim Hyung Jin, Yim Yoo Jeong, Kim Sung Tae, Jeon Pyoung, Kim Keon Ha, Kim Sam Soo, Jeon Yong Hwan, Lee Jiwon

机构信息

Department of Radiology and Center for Imaging Science, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.

出版信息

Korean J Radiol. 2008 May-Jun;9(3):212-8. doi: 10.3348/kjr.2008.9.3.212.

DOI:10.3348/kjr.2008.9.3.212
PMID:18525223
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2627251/
Abstract

OBJECTIVE

To compare the use of 3D driven equilibrium (DRIVE) imaging with 3D balanced fast field echo (bFFE) imaging in the assessment of the anatomic structures of the internal auditory canal (IAC) and inner ear at 3 Tesla (T).

MATERIALS AND METHODS

Thirty ears of 15 subjects (7 men and 8 women; age range, 22-71 years; average age, 50 years) without evidence of ear problems were examined on a whole-body 3T MR scanner with both 3D DRIVE and 3D bFFE sequences by using an 8-channel sensitivity encoding (SENSE) head coil. Two neuroradiologists reviewed both MR images with particular attention to the visibility of the anatomic structures, including four branches of the cranial nerves within the IAC, anatomic structures of the cochlea, vestibule, and three semicircular canals.

RESULTS

Although both techniques provided images of relatively good quality, the 3D DRIVE sequence was somewhat superior to the 3D bFFE sequence. The discrepancies were more prominent for the basal turn of the cochlea, vestibule, and all semicircular canals, and were thought to be attributed to the presence of greater magnetic susceptibility artifacts inherent to gradient-echo techniques such as bFFE.

CONCLUSION

Because of higher image quality and less susceptibility artifacts, we highly recommend the employment of 3D DRIVE imaging as the MR imaging choice for the IAC and inner ear.

摘要

目的

比较3D驱动平衡(DRIVE)成像与3D平衡快速场回波(bFFE)成像在3特斯拉(T)场强下对内耳道(IAC)和内耳解剖结构的评估效果。

材料与方法

对15名受试者(7名男性和8名女性;年龄范围22 - 71岁,平均年龄50岁)的30只耳部进行检查,这些耳部均无耳部问题迹象。使用8通道灵敏度编码(SENSE)头部线圈,在全身3T磁共振成像(MR)扫描仪上采用3D DRIVE和3D bFFE序列进行扫描。两名神经放射科医生对两种MR图像进行了审查,特别关注解剖结构的可视性,包括IAC内的四条颅神经分支、耳蜗、前庭和三个半规管的解剖结构。

结果

虽然两种技术都提供了质量相对较好的图像,但3D DRIVE序列在某种程度上优于3D bFFE序列。在耳蜗基底转、前庭和所有半规管方面,差异更为显著,这被认为是由于诸如bFFE等梯度回波技术固有的更大磁敏感性伪影所致。

结论

由于图像质量更高且磁敏感性伪影更少,我们强烈推荐使用3D DRIVE成像作为IAC和内耳的MR成像选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/be5b43d6c9a3/kjr-9-212-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/c984d16a575e/kjr-9-212-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/cdc2b46bf0d7/kjr-9-212-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/be5b43d6c9a3/kjr-9-212-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/c984d16a575e/kjr-9-212-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/cdc2b46bf0d7/kjr-9-212-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2efb/2627251/be5b43d6c9a3/kjr-9-212-g003.jpg

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