Cochlear Implantation: Small Cochlear Diameter May Indicate Degree of Abnormality.

Fahad N Altamimi, AlTheyab Fatemah, Mariam Al-Amro, Ali Al Montasher, Sara Al Otaibi, Fida Al Muhawas
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Abstract

Cochlear size variation was first reported in 1884, and since then, there have been various reports confirming the same. Yet, there is no single report that has displayed the wide variations in the cochlear size in a single layout capturing the cochlea in the oblique coronal view/ cochlear view. Basal turn diameter (A-value) was measured in the oblique coronal plane using the OTOPLAN® otological preplanning tool in 104 computed tomography (CT) scans of the temporal bones of cochlear implant (CI) recipients in a tertiary CI center. All CT scans with an image resolution of at least 0.5 mm and identified as having cochleae with normal anatomy were included in this study. A 3-dimensional (3D) segmentation was performed using the 3D slicer and visualized to evaluate the impact of cochlear size on the number of turns studied. The A-value was found to vary between 7.3 mm and 10.4 mm among the studied patients. Three-dimensional segmentation of the inner ear revealed only 2 turns of the cochlea in 4 ears, with A-values of 7.3, 8.8, 7.8, and 7.7 mm. One ear had only 11 /2 turns of the cochlea, with an A-value of 7.9 mm. As a further advancement in the assessment of cochlear size as determined by the A-value, 3D segmentation of the complete inner ear provides a full picture of the number of cochlear turns. Three-dimensional segmentation of the entire inner ear could help improve the preoperative planning of CI surgery and have implications for electrode array selection. Cochlear size could be a predictor of the number of cochlear turns, even in cases that look normal from the radiological findings. The findings of this study could help in improving the preoperative planning for a more successful CI surgery by differentiating between the normal and abnormal cochlea.

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人工耳蜗植入:耳蜗直径小可能表明异常程度。
耳蜗大小的变化最早见于 1884 年,此后又有各种报告证实了这一点。然而,目前还没有一份报告能在单一的布局中显示出耳蜗大小的巨大差异,该布局捕捉的是斜冠状面/耳蜗视图中的耳蜗。在一家三级 CI 中心,使用 OTOPLAN® 耳科预规划工具在斜冠状面上测量了 104 个人工耳蜗 (CI) 植入者颞骨的计算机断层扫描 (CT) 扫描结果中的基底转直径(A 值)。所有图像分辨率至少为 0.5 毫米、耳蜗解剖结构正常的 CT 扫描图像均被纳入本研究。使用三维切片器进行三维(3D)分割,并通过可视化评估耳蜗大小对研究转数的影响。研究发现,患者的 A 值介于 7.3 毫米和 10.4 毫米之间。内耳的三维分割显示 4 只耳朵的耳蜗只有 2 圈,A 值分别为 7.3、8.8、7.8 和 7.7 毫米。一只耳朵的耳蜗只有 11 /2 圈,A 值为 7.9 毫米。作为根据 A 值评估耳蜗大小的又一进步,完整内耳的三维分割提供了耳蜗转数的全貌。对整个内耳进行三维分割有助于改善人工耳蜗手术的术前规划,并对电极阵列的选择产生影响。耳蜗大小可以预测耳蜗匝数,即使在放射学检查结果正常的病例中也是如此。本研究的发现有助于改进术前规划,通过区分正常和异常耳蜗,使人工耳蜗手术更加成功。
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