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人工耳蜗植入后电极阵列的标量定位:使用64层多探测器计算机断层扫描的临床经验

Scalar localization of the electrode array after cochlear implantation: clinical experience using 64-slice multidetector computed tomography.

作者信息

Lane John I, Witte Robert J, Driscoll Colin L W, Shallop Jon K, Beatty Charles W, Primak Andrew N

机构信息

Department of Radiology, Mayo Clinic, Rochester, MN 55902, USA.

出版信息

Otol Neurotol. 2007 Aug;28(5):658-62. doi: 10.1097/MAO.0b013e3180686e26.

DOI:10.1097/MAO.0b013e3180686e26
PMID:17558341
Abstract

OBJECTIVE

To use the improved resolution available with 64-slice multidetector computed tomography (MDCT) in vivo to localize the cochlear implant electrode array within the basal turn.

STUDY DESIGN

Sixty-four-slice MDCT examinations of the temporal bones were retrospectively reviewed in 17 patients. Twenty-three implants were evaluated.

SETTING

Tertiary referral facility.

PATIENTS

All patients with previous cochlear implantation evaluated at our center between January 2004 and March 2006 were offered a computed tomographic examination as part of the study. In addition, preoperative computed tomographic examinations in patients being evaluated for a second bilateral device were included.

INTERVENTION

Sixty-four-slice MDCT examination of the temporal bones.

MAIN OUTCOME MEASURE

Localization of the electrode array within the basal turn from multiplanar reconstructions of the cochlea.

RESULTS

Twenty-three implants were imaged in 17 patients. We were able to localize the electrode array within the scala tympani within the basal turn in 10 implants. In 3 implants, the electrode array was localized to the scala vestibuli. Migration of the electrode array from scala tympani to scala vestibuli was observed in three implants. Of the 7 implants in which localization of the electrode array was indeterminate, all had disease entities that obscured the definition of the normal cochlear anatomy.

CONCLUSIONS

Sixty-four-slice MDCT with multiplanar reconstructions of the postoperative cochlea after cochlear implantation allows for accurate localization of the electrode array within the basal turn where normal cochlear anatomy is not obscured by the underlying disease process. Correlating the position of the electrode in the basal turn with surgical technique and implant design could be helpful in improving outcomes.

摘要

目的

利用64层多排螺旋计算机断层扫描(MDCT)在体内提高的分辨率,将人工耳蜗电极阵列定位在蜗底转内。

研究设计

对17例患者的颞骨进行64层MDCT检查,并进行回顾性分析。共评估了23个植入物。

研究地点

三级转诊机构。

患者

2004年1月至2006年3月期间在本中心接受人工耳蜗植入评估的所有患者均接受了计算机断层扫描检查,作为研究的一部分。此外,还纳入了正在评估双侧第二次植入装置的患者的术前计算机断层扫描检查。

干预措施

颞骨的64层MDCT检查。

主要观察指标

通过耳蜗的多平面重建确定电极阵列在蜗底转内的位置。

结果

17例患者共成像23个植入物。我们能够在10个植入物中确定电极阵列位于蜗底转的鼓阶内。在3个植入物中,电极阵列位于前庭阶。在3个植入物中观察到电极阵列从鼓阶迁移至前庭阶。在7个电极阵列位置不确定的植入物中,所有患者均有病变,影响了正常耳蜗解剖结构的清晰度。

结论

人工耳蜗植入术后,采用64层MDCT对耳蜗进行多平面重建,能够在蜗底转内准确确定电极阵列的位置,前提是正常耳蜗解剖结构未被潜在疾病过程所掩盖。将蜗底转电极位置与手术技术和植入物设计相关联,可能有助于改善治疗效果。

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