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高分辨率锥形束计算机断层扫描:一种改善无创电极设计与定位的潜在工具。

High-resolution cone-beam computed tomography: a potential tool to improve atraumatic electrode design and position.

作者信息

Cushing Sharon L, Daly Michael J, Treaba Claudiu G, Chan Harley, Irish Jonathan C, Blaser Susan, Gordon Karen A, Papsin Blake C

机构信息

Archie's Cochlear Implant Laboratory, Hospital for Sick Children, Toronto, ON, Canada.

出版信息

Acta Otolaryngol. 2012 Apr;132(4):361-8. doi: 10.3109/00016489.2011.644805. Epub 2012 Jan 11.

DOI:10.3109/00016489.2011.644805
PMID:22235960
Abstract

CONCLUSIONS

Flat-panel cone-beam computed tomography (CBCT) is able to assess the trajectory of the implanted cochlear implant (CI) array. This is essential to determine specific effects of electrode design and surgical innovations on outcomes in cochlear implantation. CBCT is a non-invasive approach yielding similar data to histopathological analyses, with encouraging potential for use in surgical, clinical and research settings.

OBJECTIVES

To examine the fidelity of CBCT imaging and custom 3D visualization in characterizing CI insertion in comparison to gold standard, histopathological examination.

METHODS

Eleven human temporal bones were implanted with the 'Straight Research Array' (SRA). Post-insertion, they were imaged with a prototype mobile C-arm for intraoperative CBCT. Post-acquisition processing of low-dose CBCT images produced high-resolution 3D volumes with sub-millimetre spatial resolution (isotropic 0.2 mm(3) voxels). The bones were resin impregnated and sectioned for light microscopic examination. Dimensional electrode characteristics visible in section images were compared with corresponding CBCT images by independent observers.

RESULTS

Overall, CBCT demonstrated adequate resolution to detect: 1) scala implanted; 2) kinking; 3) number of intracochlear contacts; 4) appropriate ascension of the array; and overall confirms ideal insertion. CBCT did not demonstrate adequate resolution to detect reversal of electrode contacts or basilar membrane rupture.

摘要

结论

平板锥形束计算机断层扫描(CBCT)能够评估植入的人工耳蜗(CI)阵列的轨迹。这对于确定电极设计和手术创新对人工耳蜗植入结果的具体影响至关重要。CBCT是一种非侵入性方法,可产生与组织病理学分析相似的数据,在手术、临床和研究环境中有令人鼓舞的应用潜力。

目的

与金标准组织病理学检查相比,研究CBCT成像和定制3D可视化在表征CI植入方面的保真度。

方法

11块人类颞骨植入了“直线研究阵列”(SRA)。植入后,使用原型移动C形臂进行术中CBCT成像。对低剂量CBCT图像进行采集后处理,生成具有亚毫米空间分辨率(各向同性0.2mm³体素)的高分辨率3D容积。将骨头用树脂浸渍并切片进行光学显微镜检查。独立观察者将切片图像中可见的电极尺寸特征与相应的CBCT图像进行比较。

结果

总体而言,CBCT显示出足够的分辨率来检测:1)植入的蜗管;2)扭结;3)蜗内接触的数量;4)阵列的适当上升;并总体确认理想的植入情况。CBCT没有显示出足够的分辨率来检测电极接触的反转或基底膜破裂。

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