Histological Reaction in the Round Window Membrane after Cochlear Implant Insertion in Nonhuman Primates.

IF 1.6 4区医学 Q2 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY

Audiology and Neuro-Otology Pub Date : 2024-01-01 Epub Date: 2023-12-12 DOI:10.1159/000533194

Sebastian Picciafuoco, Raquel Manrique-Huarte, Jorge De Abajo, Marta Alvarez de Linera-Alperi, Maria Antonia Gallego, Manuel Manrique

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引用次数: 0

Abstract

Introduction: The primary objective of this article was to determine if any histological alterations occur in the round window (RW) and adjacent anatomical structures of an animal model with normal hearing when a cochlear implant (CI) electrode array is inserted. Furthermore, this article aims to relate these histological alterations to the auditory changes generated.

Methods: Cochlear implantation was performed, following the principles of minimally traumatic surgery (MTS), in 15 ears of nonhuman primates (Macaca fascicularis) (Mf) with normal hearing. Auditory brainstem-evoked potentials (ABR) using clicks and tones were used prior to surgery and during a 6-month follow-up period. Histological evaluation was carried out, analyzing the position of the electrode array with respect to the round window membrane (RWM), its percentage of occupation and integrity, the presence of intracochlear damage, and the tissue reaction provoked, the latter of which was quantified in the temporal bones.

Results: Surgery was performed on all 15 ears without relevant incidences. Regarding histology, the electrode array in the RW of all ears presented a lateral position with respect to the modiolus. No lesions affecting the integrity of the RW were observed. The mean value of the array's occupation in the RW was 25%. Tissue reaction, in the form of fibrosis, was observed in all ears and more intensely in the trans-RWM and post-RWM areas. In all ears, the electrodes remained on the scala tympani. No profound hearing impairment was recorded in any ear, being the mean loss of 25.4 dB when comparing presurgical thresholds with those collected 6 months after implantation in ABR click and 24.4 dB in ABR tone burst.

Conclusions: The animal model and Hybrid L-14 (HL14) electrode array were optimal for implementing a surgical technique similar to that routinely performed on humans. Mild histological alterations were observed in the round window membrane and adjacent anatomical structures from the insertion of a cochlear implant electrode array. Following the minimally invasive technique, levels of hearing preservation were satisfactory, reaching a pre-post difference of 25.4 dB in the ABR click and 24.4 dB for a high-frequency tone burst. Complete hearing impairment was not observed in either ear. Correlation between the severity of histological alterations and hearing changes recorded in the ABR studies was observed.

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非人灵长类耳蜗植入后圆窗膜的组织学反应

简介：本文的主要目的是确定当插入人工耳蜗电极阵列时，听力正常的动物模型的圆窗（RW）和邻近解剖结构是否会发生组织学改变。此外，本文还旨在将这些组织学变化与所产生的听觉变化联系起来：方法：按照微创手术（MTS）的原则，在听力正常的非人灵长类（Macaca fascicularis）（Mf）的15只耳朵中进行了人工耳蜗植入手术。在手术前和 6 个月的随访期间，使用点击声和音调进行听觉脑干诱发电位 (ABR)。进行了组织学评估，分析了电极阵列相对于圆窗膜（RWM）的位置、其占位百分比和完整性、耳蜗内损伤的存在以及引发的组织反应，后者在颞骨中进行了量化：结果：对所有 15 只耳朵都进行了手术，无相关病例发生。在组织学方面，所有耳朵耳蜗内的电极阵列相对于模耳都呈侧位。未发现影响 RW 完整性的病变。RW中电极阵列的平均占用率为25%。所有耳朵都出现了纤维化形式的组织反应，经 RWM 和 RWM 后区域的反应更为强烈。所有耳朵的电极都位于鼓室。手术前与植入 6 个月后采集的 ABR 点击阈值和 ABR 音爆阈值相比，平均损失分别为 25.4 分贝和 24.4 分贝：动物模型和混合 L-14 (HL14) 电极阵列是实施与人类常规手术类似的手术技术的最佳选择。插入人工耳蜗电极阵列后，在圆窗膜和邻近解剖结构中观察到轻微的组织学改变。采用微创技术后，听力保护水平令人满意，ABR点击和高频音爆的前后差异分别达到25.4分贝和24.4分贝。两只耳朵均未出现完全听力损伤。组织学改变的严重程度与 ABR 研究中记录的听力变化之间存在相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Audiology and Neuro-Otology 医学-耳鼻喉科学

CiteScore

3.20

自引率

6.20%

发文量

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.