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Ear Hear. 2021 July/Aug;42(4):941-948. doi: 10.1097/AUD.0000000000000985.
3
Long-Term Influence of Electrode Array Length on Speech Recognition in Cochlear Implant Users.电极长度对人工耳蜗植入使用者言语识别的长期影响。
Laryngoscope. 2021 Apr;131(4):892-897. doi: 10.1002/lary.28949. Epub 2020 Aug 1.
4
Speech recognition with cochlear implants as a function of the number of channels: Effects of electrode placement.人工耳蜗语音识别与通道数量的关系:电极位置的影响。
J Acoust Soc Am. 2020 May;147(5):3646. doi: 10.1121/10.0001316.
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6
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7
Presence of the spiral ganglion cell bodies beyond the basal turn of the human cochlea.人类耳蜗底回以外存在螺旋神经节细胞体。
Cochlear Implants Int. 2020 May;21(3):145-152. doi: 10.1080/14670100.2019.1694226. Epub 2019 Nov 26.
8
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9
Further Evidence of the Relationship Between Cochlear Implant Electrode Positioning and Hearing Outcomes.进一步证明人工耳蜗电极位置与听力结果的关系。
Otol Neurotol. 2019 Jun;40(5):617-624. doi: 10.1097/MAO.0000000000002204.
10
Synchrotron Radiation-Based Reconstruction of the Human Spiral Ganglion: Implications for Cochlear Implantation.基于同步辐射的人耳蜗螺旋神经节重建:对人工耳蜗植入的影响。
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长侧墙植入体的人工耳蜗植入患者完全植入的发生率。

Incidence of Complete Insertion in Cochlear Implant Recipients of Long Lateral Wall Arrays.

机构信息

Department of Otolaryngology/Head and Neck Surgery, University of North Carolina at Chapel Hill, North Carolina, USA.

出版信息

Otolaryngol Head Neck Surg. 2021 Oct;165(4):571-577. doi: 10.1177/0194599820987456. Epub 2021 Feb 16.

DOI:10.1177/0194599820987456
PMID:33588627
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8943918/
Abstract

OBJECTIVE

High rates of partial insertion have been reported for cochlear implant (CI) recipients of long lateral wall electrode arrays, presumably caused by resistance encountered during insertion due to cochlear morphology. With recent advances in long-electrode array design, we sought to investigate (1) the incidence of complete insertions among patients implanted with 31.5-mm flexible arrays and (2) whether complete insertion is limited by cochlear duct length (CDL).

STUDY DESIGN

Retrospective review.

SETTING

Tertiary referral center.

METHODS

Fifty-one adult CI recipients implanted with 31.5-mm flexible lateral wall arrays underwent postoperative computed tomography to determine the rate of complete insertion, defined as all contacts being intracochlear. CDL and angular insertion depth (AID) were compared between complete and partial insertion cohorts.

RESULTS

Most cases had a complete insertion (96.1%, n = 49). Among the complete insertion cohort, the median CDL was 33.6 mm (range, 30.3-37.9 mm), and median AID was 641° (range, 533-751°). Two cases of partial insertion had relatively short CDL (31.8 mm and 32.3 mm) and shallow AID (542° and 575°). Relatively shallow AID for the 2 cases of partial insertion fails to support the idea that CDL alone prevents a complete insertion.

CONCLUSION

Complete insertion of a 31.5-mm flexible array is feasible in most cases and does not appear to be limited by the range of CDL observed in this cohort. Future studies are needed to estimate other variations in cochlear morphology that could predict resistance and failure to achieve complete insertion with long arrays.

摘要

目的

据报道,长侧墙电极阵列的耳蜗植入(CI)受者中存在部分插入率较高的情况,这可能是由于耳蜗形态引起的插入过程中的阻力所致。随着长电极阵列设计的最新进展,我们试图调查(1)接受 31.5 毫米柔性阵列植入的患者中完全插入的发生率,以及(2)完全插入是否受耳蜗管长度(CDL)的限制。

研究设计

回顾性研究。

设置

三级转诊中心。

方法

51 例成人 CI 接受者植入 31.5 毫米柔性侧墙阵列,术后行计算机断层扫描以确定完全插入率,完全插入定义为所有触点均位于耳蜗内。比较完全插入和部分插入队列之间的 CDL 和角插入深度(AID)。

结果

大多数病例均为完全插入(96.1%,n=49)。在完全插入队列中,CDL 的中位数为 33.6 毫米(范围,30.3-37.9 毫米),AID 的中位数为 641°(范围,533-751°)。2 例部分插入的病例 CDL 相对较短(31.8 毫米和 32.3 毫米),AID 较浅(542°和 575°)。2 例部分插入的病例相对较浅的 AID 不支持 CDL 单独防止完全插入的观点。

结论

在大多数情况下,31.5 毫米柔性阵列的完全插入是可行的,而且似乎不受本队列中观察到的 CDL 范围的限制。未来的研究需要估计其他耳蜗形态的变化,这些变化可能会预测使用长阵列时的阻力和无法实现完全插入的情况。