儿童耳蜗神经缺失的电刺激耳蜗神经反应性。
Responsiveness of the Electrically Stimulated Cochlear Nerve in Children With Cochlear Nerve Deficiency.
机构信息
Center for Hearing Research, Boys Town National Research Hospital, Omaha, Nebraska.
出版信息
Ear Hear. 2018 Mar/Apr;39(2):238-250. doi: 10.1097/AUD.0000000000000467.
OBJECTIVES
This study aimed to (1) investigate the responsiveness of the cochlear nerve (CN) to a single biphasic-electrical pulse in implanted children with cochlear nerve deficiency (CND) and (2) compare their results with those measured in implanted children with normal-size CNs.
DESIGN
Participants included 23 children with CND (CND1 to CND23) and 18 children with normal-size CNs (S1 to S18). All subjects except for CND1 used Cochlear Nucleus cochlear implants with contour electrode arrays in their test ears. CND1 was implanted with a Cochlear Nucleus Freedom cochlear implant with a straight electrode array in the test ear. For each subject, the CN input/output (I/O) function and the refractory recovery function were measured using electrophysiological measures of the electrically evoked compound action potential (eCAP) at multiple electrode sites across the electrode array. Dependent variables included eCAP threshold, the maximum eCAP amplitude, slope of the I/O function, and time-constants of the refractory recovery function. Slopes of I/O functions were estimated using statistical modeling with a sigmoidal function. Recovery time-constants, including measures of the absolute refractory period and the relative refractory period, were estimated using statistical modeling with an exponential decay function. Generalized linear mixed-effect models were used to evaluate the effects of electrode site on the dependent variables measured in children with CND and to compare results of these dependent variables between subject groups.
RESULTS
The eCAP was recorded at all test electrodes in children with normal-size CNs. In contrast, the eCAP could not be recorded at any electrode site in 4 children with CND. For all other children with CND, the percentage of electrodes with measurable eCAPs decreased as the stimulating site moved in a basal-to-apical direction. For children with CND, the stimulating site had a significant effect on the slope of the I/O functions and the relative refractory period but showed no significant effect on eCAP threshold and the maximum eCAP amplitude. Children with CND had significantly higher eCAP thresholds, smaller maximum eCAP amplitudes, flatter slopes of I/O functions, and longer absolute refractory periods than children with normal-size CNs. There was no significant difference in the relative refractory period measured in these two subject groups.
CONCLUSIONS
In children with CND, the functional status of the CN varied along the length of the cochlea. Compared with children with normal-size CNs, children with CND showed reduced CN responsiveness to electrical stimuli. The prolonged CN absolute refractory period in children with CND might account for, at least partially, the observed benefit of using relatively slow pulse rate in these patients.
目的
本研究旨在:(1) 研究植入患有耳蜗神经缺陷(CND)儿童的单个双相电脉冲对耳蜗神经(CN)的反应性;(2) 将结果与正常大小 CN 植入儿童的测量结果进行比较。
设计
参与者包括 23 名患有 CND 的儿童(CND1 至 CND23)和 18 名正常大小 CN 儿童(S1 至 S18)。除 CND1 外,所有受试者均在测试耳中使用 Cochlear Nucleus 耳蜗植入物和轮廓电极阵列。CND1 植入 Cochlear Nucleus Freedom 耳蜗植入物,在测试耳中使用直电极阵列。对于每个受试者,使用电诱发复合动作电位(eCAP)的电生理测量,在电极阵列上的多个电极位置测量 CN 的输入/输出(I/O)功能和恢复时间常数功能。因变量包括 eCAP 阈值、最大 eCAP 幅度、I/O 函数的斜率和恢复时间常数。I/O 函数的斜率使用统计模型和 sigmoidal 函数进行估计。恢复时间常数,包括绝对不应期和相对不应期的测量,使用统计模型和指数衰减函数进行估计。使用广义线性混合效应模型评估电极位置对患有 CND 的儿童的测量因变量的影响,并比较两组受试者的这些因变量的结果。
结果
正常大小 CN 儿童的所有测试电极均记录到 eCAP。相比之下,4 名患有 CND 的儿童在任何电极位置都无法记录到 eCAP。对于其他所有患有 CND 的儿童,随着刺激部位向基底-顶方向移动,可测量 eCAP 的电极百分比降低。对于患有 CND 的儿童,刺激部位对 I/O 函数的斜率和相对不应期有显著影响,但对 eCAP 阈值和最大 eCAP 幅度没有显著影响。患有 CND 的儿童的 eCAP 阈值明显较高,最大 eCAP 幅度较小,I/O 函数的斜率较平坦,绝对不应期较长,而正常大小 CN 儿童的 eCAP 阈值明显较高,最大 eCAP 幅度较小,I/O 函数的斜率较平坦,绝对不应期较长。这两组受试者的相对不应期无显著差异。
结论
在患有 CND 的儿童中,CN 的功能状态沿耳蜗的长度而变化。与正常大小 CN 儿童相比,患有 CND 的儿童对电刺激的 CN 反应性降低。患有 CND 的儿童的 CN 绝对不应期延长可能至少部分解释了在这些患者中使用相对较慢的脉冲率的益处。
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