Service d'Oto-Rhino-Laryngologie et Chirurgie Cervico-Faciale, Hôpital Nord-Chemin des Bourrelly, Marseille, France.
Otol Neurotol. 2012 Aug;33(6):963-7. doi: 10.1097/MAO.0b013e31825e77f7.
Report outcomes of 2 first known cases using a cochlear implant (CI) and a contralateral auditory brainstem implant (ABI).
Two adult patients with postlingual sensorineural deafness.
Both patients had unilateral CI insertion followed by contralateral ABI insertion. In 1 case, there was a large left vestibular schwannoma in the only hearing left ear. CI insertion was first performed in the right longstanding deaf ear. Shortly afterward during the left translabyrinthine surgery, a left ABI was simultaneously inserted. The second patient had Ménière's disease controlled initially by right translabyrinthine vestibular neurectomy but complicated by a right dead ear. When symptoms recurred she underwent left retrosigmoid vestibular neurectomy with auditory nerve preservation. This allowed left CI insertion and a subsequent right ABI insertion.
Pure tone audiometry (PTA), speech discrimination in quiet (SDq), speech discrimination in noise (SDn), and sound localization. Testing was performed with the following: 1) ABI activated alone, 2) CI activated alone, 3) CI and ABI activation (CI-ABI), and 4) CI linked to a contralateral routing of sound (CROS) hearing aid system (CI-CROS). Quality of life assessments were made using a validated questionnaire.
PTA was worst with the ABI activated alone. SDq was best with the CI-CROS. Regarding SDn with noise coming from the CI side, the head shadow effect was only overcome by the CI-ABI; however, the CI-CROS worked best in the presence of noise opposite to the CI. The CI activated alone and CI-ABI produced useful sound localization. Quality-of-life assessments were best with the CI-CROS.
Bilateral sound detection seems more beneficial than unilateral in profoundly deaf cases with only 1 functioning auditory nerve. A CI-CROS may produce similar gains to a CI-ABI.
报告两例首例使用人工耳蜗(CI)和对侧听脑植入物(ABI)的病例结果。
两名患有后天性感觉神经性耳聋的成年患者。
两名患者均行单侧 CI 植入术,随后行对侧 ABI 植入术。在 1 例病例中,左侧唯一有听力的耳朵里有一个大型左侧前庭神经鞘瘤。CI 首先在右侧长期失聪的耳朵中插入。不久之后,在进行左侧迷路手术时,同时插入了左侧 ABI。第二位患者最初通过右侧迷路前庭神经切除术控制梅尼埃病,但后来右侧失聪。当症状复发时,她接受了左侧乙状窦后前庭神经切除术,同时保留了听神经。这使得可以进行左侧 CI 植入,随后进行右侧 ABI 植入。
纯音听阈(PTA)、安静环境下言语辨别率(SDq)、噪声环境下言语辨别率(SDn)和声音定位。测试使用以下方法进行:1)单独激活 ABI,2)单独激活 CI,3)CI 和 ABI 激活(CI-ABI),4)CI 与对侧声音路由(CROS)助听器系统(CI-CROS)连接。使用经过验证的问卷进行生活质量评估。
单独激活 ABI 时 PTA 最差。CI-CROS 时 SDq 最佳。关于来自 CI 侧的噪声下的 SDn,仅通过 CI-ABI 才能克服头部阴影效应;但是,CI-CROS 在 CI 相反的噪声存在时效果最佳。单独激活 CI 和 CI-ABI 可产生有用的声音定位。CI-CROS 的生活质量评估最佳。
在仅 1 根听觉神经功能正常的极重度耳聋患者中,双侧声音检测似乎比单侧更有益。CI-CROS 可能会产生与 CI-ABI 相似的增益。
