Prevention of Cochlear Implant Electrode Damage

Overview

Journal Curr Opin Otolaryngol Head Neck Surg

Specialty Otorhinolaryngology

Date 2006 Sep 16

PMID 16974145

Citations 19

Authors

Adrien A Eshraghi

Affiliations

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Abstract

Purpose Of Review: As the current trend in cochlear implantation is to prescribe cochlear implants for patients with residual hearing and to use electroacoustic stimulation, cochlear implant damage must be prevented. This article summarizes current research endeavors to prevent electrode insertion trauma and resulting hearing loss.

Recent Findings: Alteration in surgical technique is necessary with each new electrode design. Nontraumatic surgical technique also requires minimizing acoustic trauma due to drilling the cochleostomy, mechanical damage from electrode insertion, potential infection, and fibrosis of the cochlea. The pattern of hearing loss following electrode insertion trauma is an immediate loss that results from direct trauma to the macroscopic elements of the cochlea and a delayed loss that may reflect the activation of inflammatory and cell death pathways. Therapies under investigation include glucocorticoids, inhibitors of cell death pathways, and hypothermia.

Summary: Electrode insertion trauma-induced hearing loss involves multiple mechanisms ranging from mechanical insertion trauma to activation of inflammatory and cell death pathways. The macroscopic mechanical damage to the cochlea may be prevented by improvement of electrode design and surgical technique. The molecular damage needs further studies to assess the efficacy of novel therapeutic strategies in preserving functional residual hearing.

Citing Articles

Cochlear Implant Insertion Routes and Intra-operative Electrophysiological Measurements: A Retrospective Analysis at a Tertiary Care Centre.

Tadke K, Singh P Indian J Otolaryngol Head Neck Surg. 2024; 76(1):928-933.

PMID: 38440431 PMC: 10908756. DOI: 10.1007/s12070-023-04322-y.

Mild therapeutic hypothermia protects against inflammatory and proapoptotic processes in the rat model of cochlear implant trauma.

Sangaletti R, Tamames I, Yahn S, Choi J, Lee J, King C Hear Res. 2022; 428:108680.

PMID: 36586170 PMC: 9840707. DOI: 10.1016/j.heares.2022.108680.

Evaluating the Efficacy of L-N-acetylcysteine and Dexamethasone in Combination to Provide Otoprotection for Electrode Insertion Trauma.

Eshraghi A, Shahal D, Davies C, Mittal J, Shah V, Bulut E J Clin Med. 2020; 9(3).

PMID: 32155788 PMC: 7141216. DOI: 10.3390/jcm9030716.

Electrophysiological measurements with electrode types of different perimodiolar properties and the same cochlear implant electronics - a retrospective comparison study.

Perenyi A, Toth F, Dimak B, Nagy R, Schoerg P, Jori J J Otolaryngol Head Neck Surg. 2019; 48(1):46.

PMID: 31492190 PMC: 6731597. DOI: 10.1186/s40463-019-0361-8.

Radiological evaluation of inner ear trauma after cochlear implant surgery by cone beam CT(CBCT).

Abd El Aziz T, Fiky L, Shalaby M, Essam A Eur Arch Otorhinolaryngol. 2019; 276(10):2697-2703.

PMID: 31214825 DOI: 10.1007/s00405-019-05507-4.