术中圆窗记录来自人工耳蜗植入患者的声刺激。

Intraoperative round window recordings to acoustic stimuli from cochlear implant patients.

机构信息

Department of Otolaryngology/Head and Neck Surgery, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599-7070, USA.

出版信息

Otol Neurotol. 2012 Dec;33(9):1507-15. doi: 10.1097/MAO.0b013e31826dbc80.

DOI:10.1097/MAO.0b013e31826dbc80

PMID:23047261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3632009/

Abstract

HYPOTHESIS

Acoustically evoked neural and hair cell potentials can be measured from the round window (RW) intraoperatively in the general population of cochlear implant recipients.

BACKGROUND

Cochlear implant performance varies greatly among patients. Improved methods to assess and monitor functional hair cell and neural substrate before and during implantation could potentially aid in enhanced nontraumatic intracochlear electrode placement and subsequent improved outcomes.

METHODS

Subjects (1-80 yr) undergoing cochlear implantation were included. A monopolar probe was placed at the RW after surgical access was obtained. The cochlear microphonic (CM), summating potential (SP), compound action potential (CAP), and auditory nerve neurophonic (ANN) were recorded in response to tone bursts at frequencies of 0.25 to 4 kHz at various levels.

RESULTS

Measurable hair cell/neural potentials were detected to 1 or more frequencies in 23 of 25 subjects. The greatest proportion and magnitude of cochlear responses were to low frequencies (<1,000 Hz). At these low frequencies, the ANN, when present, contributed to the ongoing response at the stimulus frequency. In many subjects, the ANN was small or absent, whereas hair cell responses remained.

CONCLUSION

In cochlear implant recipients, acoustically evoked cochlear potentials are detectable even if hearing is extremely limited. Sensitive measures of cochlear and neural status can characterize the state of hair cell and neural function before implantation. Whether this information correlates with speech performance outcomes or can help in tailoring electrode type, placement or audiometric fitting, can be determined in future studies.

摘要

假设

可以从圆窗（RW）术中在普通耳蜗植入受者人群中测量到声激发的神经和毛细胞电位。

背景

耳蜗植入的性能在患者之间差异很大。在植入前和植入期间，改进评估和监测功能毛细胞和神经基质的方法，可能有助于增强非创伤性耳蜗内电极放置，并随后改善结果。

方法

纳入接受耳蜗植入的受试者（1-80 岁）。在获得手术通路后，将单极探头放置在 RW 处。用不同强度的 0.25 至 4 kHz 的纯音短声刺激，记录耳蜗微音（CM）、总和电位（SP）、复合动作电位（CAP）和听神经神经音（ANN）。

结果

在 25 名受试者中的 23 名中，检测到 1 种或多种频率的可测量毛细胞/神经电位。最大比例和幅度的耳蜗反应是低频（<1000 Hz）。在这些低频下，存在时的 ANN 会对刺激频率的持续反应做出贡献。在许多受试者中，ANN 较小或不存在，但毛细胞反应仍然存在。

结论

在耳蜗植入受者中，即使听力极其有限，也可以检测到声激发的耳蜗电位。耳蜗和神经状态的敏感测量可以在植入前描述毛细胞和神经功能的状态。这些信息是否与言语表现结果相关，或者是否有助于定制电极类型、放置或听力拟合，可在未来的研究中确定。

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