耳蜗内压瞬变在人工耳蜗电极插入过程中的作用:微机械控制对限制压力损伤的影响。
Intracochlear Pressure Transients During Cochlear Implant Electrode Insertion: Effect of Micro-mechanical Control on Limiting Pressure Trauma.
机构信息
Department of Otolaryngology, University of Colorado School of Medicine, Aurora, Colorado.
Department of Otolaryngology - Head and Neck Surgery, University of Iowa Hospitals and Clinics, Iowa City, Iowa.
出版信息
Otol Neurotol. 2019 Jul;40(6):736-744. doi: 10.1097/MAO.0000000000002164.
HYPOTHESIS
Use of micro-mechanical control during cochlear implant (CI) electrode insertion will result in reduced number and magnitude of pressure transients when compared with standard insertion by hand.
INTRODUCTION
With increasing focus on hearing preservation during CI surgery, atraumatic electrode insertion is of the utmost importance. It has been established that large intracochlear pressure spikes can be generated during the insertion of implant electrodes. Here, we examine the effect of using a micro-mechanical insertion control tool on pressure trauma exposures during implantation.
METHODS
Human cadaveric heads were surgically prepared with an extended facial recess. Electrodes from three manufacturers were placed both by using a micro-mechanical control tool and by hand. Insertions were performed at three different rates: 0.2 mm/s, 1.2 mm/s, and 2 mm/s (n = 20 each). Fiber-optic sensors measured pressures in scala vestibuli and tympani.
RESULTS
Electrode insertion produced pressure transients up to 174 dB SPL. ANOVA revealed that pressures were significantly lower when using the micro-mechanical control device compared with insertion by hand (p << 0.001). No difference was noted across electrode type or speed. Chi-square analysis showed a significantly lower proportion of insertions contained pressure spikes when the control system was used (p << 0.001).
CONCLUSION
Results confirm previous data that suggest CI electrode insertion can cause pressure transients with intensities similar to those elicited by high-level sounds. Results suggest that the use of a micro-mechanical insertion control system may mitigate trauma from pressure events, both by reducing the amplitude and the number of pressure spikes resulting from CI electrode insertion.
假设
与手动插入相比,在使用耳蜗植入(CI)电极插入时使用微机械控制将减少压力瞬变的数量和幅度。
介绍
随着对 CI 手术期间听力保护的关注度不断提高,无创伤性电极插入至关重要。已经确定,在植入电极时可以产生大的耳蜗内压力尖峰。在这里,我们研究了使用微机械插入控制工具对植入过程中压力创伤暴露的影响。
方法
通过手术制备了具有扩展面隐窝的人体尸体头部。使用微机械控制工具和手动将来自三个制造商的电极放置。以 0.2mm/s、1.2mm/s 和 2mm/s 的三个不同速度进行插入(n=20 个)。光纤传感器测量前庭阶和鼓阶的压力。
结果
电极插入产生高达 174dB SPL 的压力瞬变。方差分析显示,与手动插入相比,使用微机械控制装置时压力明显降低(p<<0.001)。在电极类型或速度方面没有差异。卡方分析显示,当使用控制系统时,压力尖峰的插入比例明显较低(p<<0.001)。
结论
结果证实了先前的数据,即 CI 电极插入可能会引起压力瞬变,其强度与高强度声音引起的强度相似。结果表明,使用微机械插入控制系统可以减轻压力事件引起的创伤,既可以减少 CI 电极插入引起的压力尖峰的幅度,也可以减少其数量。
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