el-Kashlan H K, Niparko J K, Altschuler R A, Miller J M
Department of Otolaryngology, Kresge Hearing Research Institute, University of Michigan, Ann Arbor.
Otolaryngol Head Neck Surg. 1991 Oct;105(4):533-43. doi: 10.1177/019459989110500405.
Prosthetic stimulation of the cochlear nucleus (CN) has been used for rehabilitation of profoundly deaf patients who are not suitable candidates for cochlear implants. The goal of this article was to assess the relative effectiveness of surface vs. penetrating stimulation of the CN. Electrophysiologic and autoradiographic measures were used to study central auditory system activation elicited by direct stimulation of the CN. Eighteen pigmented guinea pigs, divided into three groups, underwent acute implantation of bipolar electrodes in the CN. One group was not stimulated and acted as a control (n = 7). Electrodes were placed on the surface of the CN in one test group (n = 4) and within the CN in a second test group (n = 7). Thresholds for electrically evoked middle latency responses (EMLR) were determined and input/output (I/O) functions were obtained. The two test groups were then pulsed with [14C]-2-Deoxyglucose (2-DG) intramuscularly and stimulated for 1 hour with biphasic; charge-balanced pulses having a total duration of 400 microseconds, a repetition rate of 100/sec, and an amplitude of 200 microA. After stimulation, animals were killed and brains were harvested and prepared for autoradiography using standard techniques. Threshold current for EMLRs in the surface-stimulated group had a mean of 67.5 +/- 23.9 microA (range, 40 to 100 microA). Thresholds for in-depth stimulated group had a mean of 11.4 +/- 3.5 microA (range, 10 to 20 microA). The saturation level of the I/O function for the surface-stimulated group had a mean of 287.5 +/- 41.5 microA (range, 250 to 350 microA). The saturation level for the in-depth stimulated group had a mean of 192.9 +/- 49.5 mciroA (range, 100 to 250 microA). The dynamic range for the surface electrodes had a mean of 13.1 +/- 2.7 dB (range, 9.9 to 15.9 dB), whereas the dynamic range for the penetrating electrodes had a mean of 24.5 +/- 2.6 dB (range, 20 to 28.0 dB). Autoradiographs generated by CNS tissue from stimulated animals demonstrated no significant difference in metabolic activity of the CN between surface and in-depth stimulated groups. However, there were highly significant differences in 2-DG uptake in the contralateral superior olivary complex, contralateral inferior colliculus, and ipsilateral and contralateral lateral lemniscus, with greater uptake in in-depth stimulated preparations. Electrophysiologic and autoradiographic data suggest that a penetrating CN prosthesis is capable of activating the auditory tract at a lower threshold, with a relatively wider dynamic range than a surface prosthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
人工刺激蜗神经核(CN)已被用于那些不适合接受人工耳蜗植入的极重度聋患者的康复治疗。本文的目的是评估蜗神经核表面刺激与穿透性刺激的相对有效性。采用电生理和放射自显影方法研究直接刺激蜗神经核所引发的中枢听觉系统激活情况。18只有色豚鼠被分为三组,在蜗神经核中急性植入双极电极。一组不接受刺激,作为对照组(n = 7)。在一个测试组(n = 4)中,电极置于蜗神经核表面,在第二个测试组(n = 7)中,电极置于蜗神经核内部。测定电诱发中潜伏期反应(EMLR)的阈值,并获得输入/输出(I/O)函数。然后,对两个测试组进行肌肉注射[14C]-2-脱氧葡萄糖(2-DG),并用双相、电荷平衡脉冲刺激1小时,脉冲总持续时间为400微秒,重复频率为100次/秒,幅度为200微安。刺激后,处死动物,取出大脑,采用标准技术制备用于放射自显影的样本。表面刺激组EMLR的阈值电流平均为67.5±23.9微安(范围为40至100微安)。深度刺激组的阈值平均为11.4±3.5微安(范围为10至20微安)。表面刺激组I/O函数的饱和水平平均为287.5±41.5微安(范围为250至350微安)。深度刺激组的饱和水平平均为192.9±49.5微安(范围为100至250微安)。表面电极的动态范围平均为13.1±2.7分贝(范围为9.9至15.9分贝),而穿透电极的动态范围平均为24.5±2.6分贝(范围为20至28.0分贝)。受刺激动物中枢神经系统组织产生的放射自显影片显示,表面刺激组和深度刺激组蜗神经核的代谢活性无显著差异。然而,在对侧上橄榄复合体、对侧下丘以及同侧和对侧外侧丘系中,2-DG摄取存在高度显著差异,深度刺激样本中的摄取量更大。电生理和放射自显影数据表明,与表面假体相比,穿透性蜗神经核假体能够以较低阈值激活听觉通路,且动态范围相对更宽。(摘要截取自400字)
