Department of Otolaryngology, Hannover Medical School, Hannover, Germany.
Otol Neurotol. 2020 Sep;41(8):e993-e1003. doi: 10.1097/MAO.0000000000002714.
Many individuals have some residual hearing which should be preserved with cochlear implantation. To achieve this goal electrode arrays must fulfil certain design requirements. A new thin lateral wall electrode array (HiFocus SlimJ) was systematically designed on the basis of μCT studies of human cochlea anatomy. The primary objective of this study was to report on initial retrospective hearing preservation results from a cohort of subjects consecutively implanted with this electrode. Secondary objectives were to report on insertion depth and speech perception results for this new array.
Twenty subjects with considerable residual hearing in low frequencies were consecutively implanted with the SlimJ electrode array. The electrode was inserted slowly through the round window and the insertion process was controlled by intracochlear electrocochleography measuring cochlear microphonics through the cochlear implant.Postoperative cone beam computed tomography was conducted and precise scalar location and angular insertion depth was estimated following image fusion with the preoperative images.
Low frequency hearing at 1 month postsurgery was preserved within 30 dB HL in 85% of subjects and within 15 dB HL in 50% of subjects. Mean angular insertion depth was 393 degrees (SD 62 degrees) with a range from 294 to 520 degrees. All electrode contacts in all subjects were identified within scala tympani.
The SlimJ electrode array is easy to handle for atraumatic insertion through the round window, adjusted insertion depth controlled by electrocochleography measurements, and reliable fixation at the posterior tympanotomy. Hearing preservation rates are encouraging on the short term. We aim to further report on larger data sets and long-term outcomes.
许多人都有一定的残余听力,这部分听力应该通过耳蜗植入来保留。为了实现这一目标,电极阵列必须满足某些设计要求。一种新的薄侧壁电极阵列(HiFocus SlimJ)是基于对人类耳蜗解剖结构的 CT 研究进行系统设计的。本研究的主要目的是报告一组连续植入该电极的患者的初步回顾性听力保护结果。次要目标是报告该新型阵列的插入深度和言语感知结果。
20 名低频残余听力较好的患者连续植入 SlimJ 电极阵列。电极通过圆窗缓慢插入,插入过程通过测量通过人工耳蜗植入物的耳蜗微音的耳蜗内电描记法进行控制。术后进行锥形束计算机断层扫描,并通过与术前图像融合进行精确的标量位置和角度插入深度估计。
85%的患者术后 1 个月低频听力保留在 30dBHL 以内,50%的患者保留在 15dBHL 以内。平均角度插入深度为 393 度(标准差 62 度),范围为 294 度至 520 度。所有电极触点均位于鼓阶内。
SlimJ 电极阵列易于通过圆窗进行无创伤插入,通过电描记法测量可调整插入深度,并在后鼓室切开术处可靠固定。短期听力保护率令人鼓舞。我们旨在进一步报告更大的数据集和长期结果。
