耳蜗植入术前术后声吸收变化。
Changes in Acoustic Absorbance Pre- and Post-Cochlear Implantation.
机构信息
Department of Hearing and Speech Sciences, Vanderbilt University Medical Center, Nashville, TN.
Department of Radiology, Vanderbilt University Institute of Imaging Science, Vanderbilt University Medical Center, Nashville, TN.
出版信息
Am J Audiol. 2022 Jun 2;31(2):380-391. doi: 10.1044/2022_AJA-21-00146. Epub 2022 May 12.
PURPOSE
Until recently, there has been little investigation on the effects of cochlear implantation on the transmission of acoustic stimuli through the middle-ear system. Recent studies have shown that cochlear implantation decreases low-frequency acoustic absorbance, consistent with a stiffer middle-ear system postsurgery. The objectives of this study are (a) to investigate the time course of changes in acoustic absorbance post-cochlear implantation in the implanted ear and (b) to compare changes in acoustic absorbance between implanted and nonimplanted ears over time.
METHOD
Seventeen adult cochlear implant (CI) recipients within 6 months of device activation participated in this study. Wideband acoustic absorbance was measured in both ears at one to six different time points from pre-implantation up to 6-month postactivation. Analyses examined (a) changes in acoustic absorbance as compared to pre-implantation and (b) differences in acoustic absorbance between implanted and nonimplanted ears over time.
RESULTS
Acoustic absorbance in the implanted ear decreased postsurgery for frequencies lower than 1.5 kHz and persisted through at least 6-month postactivation. We also observed that the spectral range of decreased acoustic absorbance in the implanted ear decreased with longer time postsurgery. Differences in acoustic absorbance between implanted and nonimplanted ears occurred over a broad spectral range at the activation time point and persisted through at least 3-month postactivation, though for a narrower spectral range at the later time point.
CONCLUSIONS
Cochlear implantation increased middle-ear stiffness as indicated by decreased acoustic absorbance of low-frequency acoustic power. The findings of this study are consistent with those of previous studies and may have important implications toward understanding spatial hearing and programming of acoustic components for CI-combined electric and binaural acoustic stimulation patients.
目的
直到最近,对于人工耳蜗植入对中耳系统传输声刺激的影响的研究还很少。最近的研究表明,人工耳蜗植入降低了低频声吸收,这与手术后中耳系统更僵硬的情况一致。本研究的目的是:(a) 研究人工耳蜗植入后植入耳的声吸收随时间的变化过程;(b) 随时间比较植入耳和非植入耳的声吸收变化。
方法
17 名人工耳蜗植入(CI)受者在设备激活后 6 个月内参与了本研究。在植入前和激活后 1 到 6 个不同时间点,用宽带声吸收仪测量双耳的声吸收。分析包括:(a) 与植入前相比,声吸收的变化;(b) 随时间,植入耳和非植入耳的声吸收差异。
结果
植入耳的声吸收在手术后低于 1.5 kHz 的频率降低,并持续到激活后至少 6 个月。我们还观察到,植入耳中降低的声吸收的光谱范围随手术时间的延长而减小。在激活时间点,植入耳和非植入耳之间的声吸收差异出现在较宽的光谱范围内,并持续到激活后至少 3 个月,但在稍后的时间点,范围较窄。
结论
人工耳蜗植入增加了中耳的硬度,表现为低频声功率的声吸收降低。本研究的发现与之前的研究一致,这可能对理解空间听觉以及为人工耳蜗结合电刺激和双耳声刺激的患者编程声分量具有重要意义。
Zotero 插件