在基于解剖的人工耳蜗植入过程中,为正确放置基底电极接触点开发算法:概念验证。

IF 1.6 4区 医学 Q2 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY
Audiology and Neuro-Otology Pub Date : 2024-01-01 Epub Date: 2024-03-13 DOI:10.1159/000537933
Bjoern Spahn, Johannes Voelker, Franz-Tassilo Müller-Graff, Jonas Engert, Daniel Bauer, Anja Kurz, Rudolf Hagen, Tilmann Neun, Simon Zabler, Kristen Rak
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引用次数: 0

摘要

背景:对耳蜗进行正确的单个声调频率刺激对进一步发展基于解剖的人工耳蜗植入术具有重要作用。在这种情况下,基底电极触点与正常插入深度的频率特定匹配可能会很困难,因为它通常被放置在高于 10 kHz 的频率范围内,而目前的音频处理器由于麦克风特性只能刺激 8.5 kHz 以下的频率。这就造成了高频不匹配。因此,本研究证明了正确插入声调电极的概念,旨在开发一种算法,在实验环境中将基底电极放置在 8.5 kHz 以下:方法: 对 10 个人体颞骨标本进行了术前和术后平板容积 CT 扫描和二次重建。最基底电极接触的理想频率位置设定为 8.25 kHz。术前使用三维曲面多平面重建和新开发的数学方法计算了从圆窗到基底电极接触位置的距离。根据单独计算出的插入深度,在所有标本中植入了专门设计的人工耳蜗电极阵列,并在电极阵列硅胶上印制了定制标记。此外,还使用耳科规划软件对所有术后测量结果进行了验证:结果:基底电极接触点的定位与计划频率 8.25 kHz 仅有 37 ± 399 Hz 和 0.06 ± 0.37 mm 的微小平均偏差。基底电极接触点的平均旋转角度为 51 ± 5 °。此外,插入的电极阵列充分覆盖了耳蜗顶端区域:结论:使用这种算法,可以将基底电极阵列接触点定位在耳蜗的某一区域,现有的语音处理器可以在声调正确拟合的情况下对该区域进行正确刺激。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of an Algorithm for Correct Placement of the Basal Electrode Contact in the Context of Anatomy-Based Cochlear Implantation: A Proof of Concept.

Background: Correct individual tonotopic frequency stimulation of the cochlea plays an important role in the further development of anatomy-based cochlear implantation. In this context, frequency-specific fitting of the basal electrode contact with a normal insertion depth can be difficult since it is often placed in a frequency range higher than 10 kHz, and current audio processors only stimulate for frequencies up to 8.5 kHz due to microphone characteristics. This results in a mismatch of the high frequencies. Therefore, this study represents a proof of concept for a tonotopic correct insertion and aims to develop an algorithm for a placement of the basal electrode below 8.5 kHz in an experimental setting.

Methods: Pre- and postoperative flat-panel volume CT scans with secondary reconstructions were performed on 10 human temporal bone specimens. The desired frequency location for the most basal electrode contact was set at 8.25 kHz. The distance from the round window to the position where the basal electrode contact was intended to be located was calculated preoperatively using 3D-curved multiplanar reconstruction and a newly developed mathematical approach. A specially designed cochlear implant electrode array with customized markers imprinted on the silicone of the electrode array was inserted in all specimens based on the individually calculated insertion depths. All postoperative measurements were additionally validated using otological planning software.

Results: Positioning of the basal electrode contact was reached with only a small mean deviation of 37 ± 399 Hz and 0.06 ± 0.37 mm from the planned frequency of 8.25 kHz. The mean rotation angle up to the basal electrode contact was 51 ± 5°. In addition, the inserted electrode array adequately covered the apical regions of the cochleae.

Conclusion: Using this algorithm, it was possible to position the basal electrode array contact in an area of the cochlea that could be correctly stimulated by the existing speech processors in the context of tonotopic correct fitting.

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来源期刊
Audiology and Neuro-Otology
Audiology and Neuro-Otology 医学-耳鼻喉科学
CiteScore
3.20
自引率
6.20%
发文量
35
审稿时长
>12 weeks
期刊介绍: ''Audiology and Neurotology'' provides a forum for the publication of the most-advanced and rigorous scientific research related to the basic science and clinical aspects of the auditory and vestibular system and diseases of the ear. This journal seeks submission of cutting edge research opening up new and innovative fields of study that may improve our understanding and treatment of patients with disorders of the auditory and vestibular systems, their central connections and their perception in the central nervous system. In addition to original papers the journal also offers invited review articles on current topics written by leading experts in the field. The journal is of primary importance for all scientists and practitioners interested in audiology, otology and neurotology, auditory neurosciences and related disciplines.
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