基于聚合物的人工耳蜗的磁共振兼容性。

Magnetic Resonance Imaging Compatibility of the Polymer-based Cochlear Implant.

机构信息

School of Electrical Engineering and Computer Science, College of Engineering, Seoul National University, Seoul, Korea.

出版信息

Clin Exp Otorhinolaryngol. 2012 Apr;5 Suppl 1(Suppl 1):S19-23. doi: 10.3342/ceo.2012.5.S1.S19. Epub 2012 Apr 30.

DOI:10.3342/ceo.2012.5.S1.S19

PMID:22701769

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3369977/

Abstract

OBJECTIVES

In this study, we compared the magnetic resonance (MR) image artifacts caused by a conventional metal-based cochlear implant and a newly developed liquid crystal polymer (LCP)-based device.

METHODS

The metal-based cochlear implant system (Nurobiosys Co.) was attached to side of the head of a subject and the LCP-based device was attached to opposite side. In both devices, alignment magnets were removed for safety. Magnetic resonance imaging (MRI) was performed on a widely used 3.0 T and an ultra-high 7.0 T MRI machine. 3.0 and 7.0 T MR images were acquired using T1- and T2(*)-weighted gradient echo sequences, respectively.

RESULTS

In the 3.0 T images, the metal-based device on the left side generated the significant amount of artifacts. The MR images in the proximity of the metal package were obscured by the artifacts in both axial and sagittal views. On the other hand, the MR images near the LCP-based device were relatively free from the artifacts and clearly showed the brain structures. 7.0 T MR images showed the more severe distortion in the both sides but the metal-based cochlear implant system caused a much larger obscure area than the LCP-based system.

CONCLUSION

The novel LCP-based cochlear implant provides a good MRI compatibility beyond present-day cochlear implants. Thus, MR images can be obtained from the subjects even with the implanted LCP-based neural prosthetic systems providing useful diagnostic information. Furthermore, it will be also useful for functional MRI studies of the auditory perception mechanism after cochlear implantations as well as for positron emission tomography-MRI hybrid imaging.

摘要

目的

本研究比较了传统基于金属的人工耳蜗植入物和新开发的液晶聚合物（LCP）基设备引起的磁共振（MR）图像伪影。

方法

将基于金属的人工耳蜗植入系统（Nurobiosys Co.）附着在受试者头部的一侧，将基于 LCP 的设备附着在对侧。在这两种设备中，出于安全考虑，去除了对准磁铁。在广泛使用的 3.0 T 和超高 7.0 T MRI 机上进行了磁共振成像（MRI）。使用 T1 和 T2(*)-加权梯度回波序列分别采集 3.0 和 7.0 T MR 图像。

结果

在 3.0 T 图像中，左侧基于金属的设备产生了大量伪影。金属封装物附近的 MR 图像在轴位和矢状位视图中均被伪影遮挡。另一方面，基于 LCP 的设备附近的 MR 图像相对没有伪影，清晰地显示了大脑结构。7.0 T MR 图像显示两侧的失真更严重，但基于金属的人工耳蜗植入系统造成的遮挡区域比基于 LCP 的系统大得多。

结论

新型基于 LCP 的人工耳蜗提供了比目前人工耳蜗更好的 MRI 兼容性。因此，即使植入了基于 LCP 的神经假体系统，也可以从受试者获得 MR 图像，从而提供有用的诊断信息。此外，它还将有助于耳蜗植入后听觉感知机制的功能磁共振成像研究以及正电子发射断层扫描-MRI 混合成像。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a1eb/3369977/679cbdcfea97/ceo-5-S19-g001.jpg

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基于聚合物的人工耳蜗的磁共振兼容性。

Magnetic Resonance Imaging Compatibility of the Polymer-based Cochlear Implant.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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