听力保护型人工耳蜗激活后出现的听力损失可能与耳蜗传入神经支配损伤有关。
Hearing Loss After Activation of Hearing Preservation Cochlear Implants Might Be Related to Afferent Cochlear Innervation Injury.
作者信息
Kopelovich Jonathan C, Reiss Lina A J, Etler Christine P, Xu Linjing, Bertroche J Tyler, Gantz Bruce J, Hansen Marlan R
机构信息
*Departments of Otolaryngology-Head and Neck Surgery, University of Iowa, Iowa City, Iowa; †Department of Otolaryngology-Head and Neck Surgery, Oregon Health Science University, Portland, Oregon; and ‡Departments of Communication Sciences and Disorders and §Neurosurgery, University of Iowa, Iowa City, Iowa, U.S.A.
出版信息
Otol Neurotol. 2015 Jul;36(6):1035-44. doi: 10.1097/MAO.0000000000000754.
OBJECTIVE
Characterize hearing loss (HL) after hearing preservation cochlear implantation and determine the association between high charge electrical stimulation (ES) and late loss of acoustic hearing.
METHODS
A retrospective cohort analysis of all hearing preservation implantees at our center (n = 42) assayed HL as a function of maximum charge. We analyzed serial audiometry from 85 patients enrolled in the multicenter Hybrid S8 trial to detail the hearing loss greater than 1 month after implantation. Cochleotypic explant cultures were used to assess susceptibility to high levels of ES.
RESULTS
Early HL after implantation tends to be mild and averages 12.2 dB. After activation of the Hybrid S8 device, 17 (20%) of 85 patients experienced acceleration of HL. Compared with the majority of patients who did not lose significant hearing after activation, these patients experienced more severe HL at 1 year. Five patients implanted at our center experienced acceleration of HL after high charge exposure. In patients implanted at our center, high charge was associated with late HL (Pearson 0.366, p = 0.016). In rat cochleotypic explants, high voltage ES damaged afferent nerve fibers, reflected by blebbing and a 50% reduction in the number of fibers innervating the organ of Corti. In contrast, hair cells displayed only minor differences in cell number and morphology.
CONCLUSIONS
Based on clinical and in vitro data, we theorize that the combination of acoustic amplification and ES in the setting of intact hair cells and neural architecture may contribute, in part, to cochlear toxicity, perhaps by damaging the afferent innervation.
目的
描述听力保留型人工耳蜗植入后的听力损失(HL)情况,并确定高电荷量电刺激(ES)与后期听力丧失之间的关联。
方法
对我们中心所有听力保留型植入患者(n = 42)进行回顾性队列分析,将HL作为最大电荷量的函数进行测定。我们分析了多中心Hybrid S8试验中85名患者的系列听力测定结果,以详细了解植入后1个月以上的听力损失情况。使用耳蜗型外植体培养来评估对高水平ES的易感性。
结果
植入后的早期HL往往较轻,平均为12.2 dB。在激活Hybrid S8装置后,85名患者中有17名(20%)经历了HL加速。与大多数激活后未出现明显听力损失的患者相比,这些患者在1年时经历了更严重的HL。在我们中心植入的5名患者在高电荷量暴露后经历了HL加速。在我们中心植入的患者中,高电荷量与后期HL相关(Pearson 0.366,p = 0.016)。在大鼠耳蜗型外植体中,高电压ES损伤了传入神经纤维,表现为起泡和支配柯蒂氏器的纤维数量减少50%。相比之下,毛细胞在细胞数量和形态上仅显示出微小差异。
结论
基于临床和体外数据,我们推测在完整的毛细胞和神经结构背景下,声放大和ES的结合可能部分导致耳蜗毒性,可能是通过损害传入神经支配。
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