Predicting Postoperative Speech Perception and Audiometric Thresholds Using Intracochlear Electrocochleography in Cochlear Implant Recipients.

IF 2.6 2区 医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Ear and Hearing Pub Date : 2024-09-01 Epub Date: 2024-05-31 DOI:10.1097/AUD.0000000000001506
Jared Panario, Christofer Bester, Stephen O'Leary
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Abstract

Objectives: Electrocochleography (ECochG) appears to offer the most accurate prediction of post-cochlear implant hearing outcomes. This may be related to its capacity to interrogate the health of underlying cochlear tissue. The four major components of ECochG (cochlear microphonic [CM], summating potential [SP], compound action potential [CAP], and auditory nerve neurophonic [ANN]) are generated by different cochlear tissue components. Analyzing characteristics of these components can reveal the state of hair and neural cell in a cochlea. There is limited evidence on the characteristics of intracochlear (IC) ECochG recordings measured across the array postinsertion but compared with extracochlear recordings has better signal to noise ratio and spatial specificity. The present study aimed to examine the relationship between ECochG components recorded from an IC approach and postoperative speech perception or audiometric thresholds.

Design: In 113 human subjects, responses to 500 Hz tone bursts were recorded at 11 IC electrodes across a 22-electrode cochlear implant array immediately following insertion. Responses to condensation and rarefaction stimuli were then subtracted from one another to emphasize the CM and added to one another to emphasize the SP, ANN, and CAP. Maximum amplitudes and extracochlear electrode locations were recorded for each of these ECochG components. These were added stepwise to a multi-factor generalized additive model to develop a best-fit model predictive model for pure-tone audiometric thresholds (PTA) and speech perception scores (speech recognition threshold [SRT] and consonant-vowel-consonant phoneme [CVC-P]) at 3- and 12-month postoperative timepoints. This best-fit model was tested against a generalized additive model using clinical factors alone (preoperative score, age, and gender) as a null model proxy.

Results: ECochG-factor models were superior to clinical factor models in predicting postoperative PTA, CVC-P, and SRT outcomes at both timepoints. Clinical factor models explained a moderate amount of PTA variance ( r2 = 45.9% at 3-month, 31.8% at 12-month, both p < 0.001) and smaller variances of CVC-P and SRT ( r2 range = 6 to 13.7%, p = 0.008 to 0.113). Age was not a significant predictive factor. ECochG models explained more variance at the 12-month timepoint ( r2 for PTA = 52.9%, CVC-P = 39.6%, SRT = 36.4%) compared with the 3-month one timepoint ( r2 for PTA = 49.4%, CVC-P = 26.5%, SRT = 22.3%). The ECochG model was based on three factors: maximum SP deflection amplitude, and electrode position of CM and SP peaks. Adding neural (ANN and/or CAP) factors to the model did not improve variance explanation. Large negative SP deflection was associated with poorer outcomes and a large positive SP deflection with better postoperative outcomes. Mid-array peaks of SP and CM were both associated with poorer outcomes.

Conclusions: Postinsertion IC-ECochG recordings across the array can explain a moderate amount of postoperative speech perception and audiometric thresholds. Maximum SP deflection and its location across the array appear to have a significant predictive value which may reflect the underlying state of cochlear health.

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利用耳蜗内电子耳蜗图预测人工耳蜗植入者术后的言语感知和听力阈值
目的:耳蜗电图(ECochG)似乎能最准确地预测人工耳蜗植入后的听力结果。这可能与耳蜗组织的健康状况有关。ECochG 的四个主要成分(耳蜗微音 [CM]、求和电位 [SP]、复合动作电位 [CAP] 和听神经神经音 [ANN])由不同的耳蜗组织成分产生。分析这些成分的特征可以揭示耳蜗中毛细胞和神经细胞的状态。关于耳蜗内(IC)ECochG 记录在阵列插入后测量的特性的证据有限,但与耳蜗外记录相比,IC 记录具有更好的信噪比和空间特异性。本研究旨在检验 IC 方法记录的心电图成分与术后言语感知或听阈之间的关系:设计:在 113 名受试者中,在植入 22 个电极的人工耳蜗阵列后,立即在 11 个 IC 电极上记录对 500 Hz 音脉冲的反应。然后将对冷凝和稀释刺激的反应相减以强调 CM,再相加以强调 SP、ANN 和 CAP。记录每个 ECochG 分量的最大振幅和耳蜗外电极位置。将这些分量逐步添加到一个多因素广义相加模型中,以建立一个最佳拟合模型,预测术后 3 个月和 12 个月时点的纯音听阈 (PTA) 和言语感知评分(言语识别阈值 [SRT] 和辅音-元音-共振音素 [CVC-P])。该最佳拟合模型与仅使用临床因素(术前评分、年龄和性别)作为无效模型代表的广义相加模型进行了对比测试:结果:在预测两个时间点的术后 PTA、CVC-P 和 SRT 结果方面,ECochG 因子模型优于临床因素模型。临床因素模型可解释适量的 PTA 变异(3 个月时 r2 = 45.9%,12 个月时 31.8%,均 p <0.001)和较小的 CVC-P 和 SRT 变异(r2 范围 = 6 至 13.7%,p = 0.008 至 0.113)。年龄不是一个重要的预测因素。ECochG 模型在 12 个月时间点(PTA 的 r2 = 52.9%,CVC-P = 39.6%,SRT = 36.4%)与 3 个月时间点(PTA 的 r2 = 49.4%,CVC-P = 26.5%,SRT = 22.3%)相比能解释更多的方差。心电图模型基于三个因素:最大 SP 偏移幅度、CM 和 SP 峰的电极位置。在模型中加入神经(ANN和/或CAP)因子并不能改善方差解释。大的负SP偏转与较差的预后有关,而大的正SP偏转与较好的术后预后有关。SP和CM的中阵列峰值均与较差的预后有关:结论:插入后整个阵列的 IC-ECochG 记录可适度解释术后言语感知和听阈。最大 SP 偏转及其在整个阵列中的位置似乎具有显著的预测价值,这可能反映了耳蜗的基本健康状况。
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来源期刊
Ear and Hearing
Ear and Hearing 医学-耳鼻喉科学
CiteScore
5.90
自引率
10.80%
发文量
207
审稿时长
6-12 weeks
期刊介绍: From the basic science of hearing and balance disorders to auditory electrophysiology to amplification and the psychological factors of hearing loss, Ear and Hearing covers all aspects of auditory and vestibular disorders. This multidisciplinary journal consolidates the various factors that contribute to identification, remediation, and audiologic and vestibular rehabilitation. It is the one journal that serves the diverse interest of all members of this professional community -- otologists, audiologists, educators, and to those involved in the design, manufacture, and distribution of amplification systems. The original articles published in the journal focus on assessment, diagnosis, and management of auditory and vestibular disorders.
期刊最新文献
Associations Between Vestibular Perception and Cognitive Performance in Healthy Adults. Sounds of Nature and Hearing Loss: A Call to Action. Breathy Vocal Quality, Background Noise, and Hearing Loss: How Do These Adverse Conditions Affect Speech Perception by Older Adults? Effects of Tympanic Membrane Electrodes on Sound Transmission From the Ear Canal to the Middle and Inner Ears. The Optimal Speech-to-Background Ratio for Balancing Speech Recognition With Environmental Sound Recognition.
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