Simpler and effective radiological evaluations for modiolar proximity of a slim modiolar cochlear implant electrode

Lee, Sang Yeon; Han, Jin Hee; Carandang, Marge; Bae, Yun Jung; Choi, Byung Yoon

doi:10.1038/s41598-020-74738-x

Cited by 4 publications

(3 citation statements)

References 38 publications

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“…The electrically evoked compound action potential (ECAP) response is largely associated with SGNs [ 12 ]. Further, it has been proven that the electrode-modiolus distance is closely correlated with the ECAP thresholds of electrodes, including slim modiolar electrodes [ 13 ]. Thus, it is now possible to see immediate feedback of the electrode position with the neural structure.…”

Section: Introductionmentioning

confidence: 99%

Potential Implications of Slim Modiolar Electrodes for Severely Malformed Cochleae: A Comparison With the Straight Array With Circumferential Electrodes

Lee

Choi

2021

Clin Exp Otorhinolaryngol

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Objectives: Malformations of the inner ear account for approximately 20% of congenital deafness. In current practice, the straight arrays with circumferential electrodes (i.e., full-banded electrodes) are widely used in severely malformed cochlea. However, the unpredictability of the location of residual spiral ganglion neurons in such malformations argues against obligatorily pursuing the full-banded electrode in all cases. Here, we present an experience of electrically evoked compound action potential (ECAP) and radiography-based selection of an appropriate electrode for severely malformed cochlea. Methods: Three patients with the severely malformed cochlea, showing cochlear hypoplasia type II (CH-II), incomplete partition type I (IP-I), and cochlear aplasia with a dilated vestibule (CADV), were included, and the cochlear nerve deficiency (CND) was evaluated. Full-banded electrode (CI24RE(ST)) and slim modiolar electrode (CI632) were alternately inserted to compare ECAP responses and electrode position. Results: In patient 1 (CH-II with CND) who had initially undergone cochlear implantation (CI) using the lateral wall electrode (CI422), a revision CI was performed due to incomplete insertion of CI422 and resultant unsatisfactory performance, thus explanting the CI422 and re-inserting the CI24RE(ST) and CI632 sequentially. Although both electrodes elicited reliable ECAP responses with correct positioning, CI24RE(ST) showed overall lower ECAP thresholds compared to CI632; thus, CI24RE(ST) was selected. In patient 2 (IP-I with CND), CI632 elicited superior ECAP responses relative to CI24RE(ST), with correct positioning of the electrode; CI632 was chosen. In patient 3 (CADV), CI632 did not elicit an ECAP response while meaningful ECAP responses were obtained with the CI24RE(ST) array once correct positioning was achieved. All patients markedly improved auditory performance postoperatively. Conclusion: ECAP and radiography-based strategy for an appropriate electrode may be useful for severely malformed cochlea, leading to enhanced functional outcomes. Additionally, the practice of sticking to the full-banded straight electrode may not always be the best for IP-I and CH-II.

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Section: Introductionmentioning

confidence: 99%

Potential Implications of Slim Modiolar Electrodes for Severely Malformed Cochleae: A Comparison With the Straight Array With Circumferential Electrodes

Lee

Choi

2021

Clin Exp Otorhinolaryngol

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“…This is beneficial to patients at risk of progressive hearing loss (Yoshimura et al 2020). Additionally, recent studies have also proposed that slim modiolar electrodes can be used to achieve comparable hearing preservation as that achieved by using slim straight electrodes in patients with significant low-frequency hearing loss (Ramos-Macías et al 2017; Durakovic et al 2020; Lee et al 2020). The use of a slim electrode with sufficient length, whether of straight or of modiolar type, is recommended for MYO15A -related SNHI or other genetic SNHI with similar audiological features.…”

Section: Discussionmentioning

confidence: 99%

Hearing Features and Cochlear Implantation Outcomes in Patients With PathogenicMYO15AVariants: a Multicenter Observational Study

Chen

Tsai

et al. 2021

Ear &Amp; Hearing

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Objectives: Recessive variants in the MYO15A gene constitute an important cause of sensorineural hearing impairment (SNHI). However, the clinical features of MYO15A-related SNHI have not been systemically investigated. This study aimed to delineate the hearing features and outcomes in patients with pathogenic MYO15A variants.Design: This study recruited 40 patients with biallelic MYO15A variants from 31 unrelated families. The patients were grouped based on the presence of N-terminal domain variants (N variants). The longitudinal audiological data and for those undergoing cochlear implantation, the auditory and speech performance with cochlear implants, were ascertained and compared between patients with different genotypes.Results: At the first audiometric examination, 32 patients (80.0%) presented with severe to profound SNHI. Patients with at least one allele of the N variant exhibited significantly better hearing levels than those with biallelic non-N variants (78.2 ± 23.9 dBHL and 94.7 ± 22.8 dBHL, respectively) (p = 0.033). Progressive SNHI was observed in 82.4% of patients with non-profound SNHI, in whom the average progression rate of hearing loss was 6.3 ± 4.8 dBHL/year irrespective of the genotypes. Most of the 25 patients who underwent cochlear implantation exhibited favorable auditory and speech performances post-implantation. Conclusions:The hearing features of patients with biallelic pathogenic MYO15A variants are characterized by severe to profound SNHI, rapid hearing progression, and favorable outcomes with cochlear implants. Periodic auditory monitoring is warranted for these patients to enable early intervention.

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“…All patients underwent intraoperative x-ray scans in the operating room to verify the final placement of the electrode tip, as recommended (13). If the initial x-ray showed tip fold-over of the electrode, the electrode was retracted, reloaded, and reinserted until the array was confirmed to be optimal in the final x-ray image.…”

Section: Methodsmentioning

confidence: 99%

Two Discrete Types of Tip Fold-Over in Cochlear Implantation Using Slim Modiolar Electrodes: Influence of Cochlear Duct Length on Tip Fold-Over

Oh,

Kim,

Lee

et al. 2023

Otol Neurotol

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Objective Precise electrode positioning is crucial for achieving optimal audiological outcomes in cochlear implantation. The slim modiolar electrode (SME), a thin, flexible, and precurved electrode, exhibits favorable modiolar proximity. However, tip fold-over can affect optimal electrode placement. Herein, we share our experiences with tip fold-over in SMEs and present an analysis of conditions that may predispose to tip fold-over. Study Design Retrospective medical record review. Patients In total, 475 patients (671 ears) underwent cochlear implantation using SMEs (Nucleus CI532 or CI632 from Cochlear) performed by a single surgeon at a tertiary center between June 14, 2018, and December 1, 2022. Interventions Intraoperative x-ray scans (cochlear view), operative records, and cochlear duct length (CDL) were reviewed. Main Outcome Measures Tip fold-over patterns on plain x-ray images (proximal versus distal). Results Electrode tip fold-over was observed in 18 (2.7%) of the 671 ears with SMEs. This fold-over occurred more frequently in cases with long CDL (>36 mm). Among the 14 cases with available initial x-rays before correction of the tip fold-over, half were classified as proximal and the other half as distal. A predilection for proximal tip fold-over was found in those with a CDL of 36 mm or longer, and longer CDLs were observed for proximal cases than for distal cases. Our pilot data suggest that identifying the type of tip fold-over can aid in correcting it more efficiently. Conclusions Tip fold-over of SME does not occur uniformly and is more common in ears with long CDL. This tendency is particularly pronounced for the proximal type of tip fold-over. Therefore, preoperative measurement of the CDL and meticulous examination of intraoperative imaging are essential for customized correction.

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Simpler and effective radiological evaluations for modiolar proximity of a slim modiolar cochlear implant electrode

Cited by 4 publications

References 38 publications

Potential Implications of Slim Modiolar Electrodes for Severely Malformed Cochleae: A Comparison With the Straight Array With Circumferential Electrodes

Potential Implications of Slim Modiolar Electrodes for Severely Malformed Cochleae: A Comparison With the Straight Array With Circumferential Electrodes

Hearing Features and Cochlear Implantation Outcomes in Patients With PathogenicMYO15AVariants: a Multicenter Observational Study

Two Discrete Types of Tip Fold-Over in Cochlear Implantation Using Slim Modiolar Electrodes: Influence of Cochlear Duct Length on Tip Fold-Over

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