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使用神经反应成像和电诱发镫骨肌反射阈值等客观测量方法优化儿童助听器适配。

Optimizing fitting in children using objective measures such as neural response imaging and electrically evoked stapedius reflex threshold.

作者信息

Caner Gül, Olgun Levent, Gültekin Gürol, Balaban Muzaffer

机构信息

SB Izmir Research and Training Hospital, Ear-Nose-Throat Clinic, Izmir, Turkey.

出版信息

Otol Neurotol. 2007 Aug;28(5):637-40. doi: 10.1097/mao.0b013e3180577919.

DOI:10.1097/mao.0b013e3180577919
PMID:17667772
Abstract

OBJECTIVE

To study over time correlations between Compound Action Potential measured through Neural Response Imaging (NRI) and electrically Evoked Stapedius Reflex Thresholds (eSRT) and psychophysical measurements to develop guidelines for using those objective measures to optimize HiRes programs in patients implanted with Advanced Bionics CII-Bionic Ear or a HiRes90K cochlear implants.

PATIENTS

Fifteen pediatric subjects, all implanted with a CII-Bionic Ear or a HiRes90K.

INTERVENTIONS

NRI was measured on 4 electrodes intraoperatively at first fitting and after 3, 6, and 12 months of use. eSRT recordings were performed intraoperatively with SoundWave speech bursts. Subjects were fitted using the SoundWave defaults. Relationships between NRI thresholds (tNRI), eSRT, and most comfortable levels (M) are presented.

MAIN OUTCOME MEASURES

Intraoperative eSRT, and intraoperative and postoperative tNRI at each fitting session. Auditory performance measured by Categories of Auditory Performance and Meaningful Auditory Integration Scale.

RESULTS

First fitting Ms are 97% of intraoperative tNRI; stable Ms (12 months of implant use) are equal to 115% of 12 months' tNRI and to 76% of intraoperative eSRT on average across the electrode array with great intersubject variability.

CONCLUSION

The results show that single-channel tNRI and eSRT values can be clinically useful for programming cochlear implants in children, although this should be done with caution as there is considerable interpatient variability.

摘要

目的

通过神经反应成像(NRI)测量的复合动作电位与电诱发镫骨肌反射阈值(eSRT)及心理物理学测量之间进行长期相关性研究,以制定使用这些客观测量方法的指南,从而优化植入先进生物电子公司CII型仿生耳或HiRes90K人工耳蜗患者的高分辨率程序。

患者

15名儿科受试者,均植入了CII型仿生耳或HiRes90K。

干预措施

初次调试时及使用3、6和12个月后,在术中通过4个电极测量NRI。术中使用SoundWave言语脉冲进行eSRT记录。受试者采用SoundWave默认设置进行调试。呈现了NRI阈值(tNRI)、eSRT和最舒适响度级(M)之间的关系。

主要观察指标

每次调试时的术中eSRT,以及术中及术后的tNRI。通过听觉表现类别和有意义听觉整合量表测量听觉性能。

结果

初次调试时的M值为术中tNRI的97%;稳定的M值(植入使用12个月)平均等于电极阵列上12个月tNRI的115%,等于术中eSRT的76%,个体间差异较大。

结论

结果表明,单通道tNRI和eSRT值在临床上可用于儿童人工耳蜗编程,尽管由于患者间存在相当大的差异,应谨慎进行。

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Otol Neurotol. 2007 Aug;28(5):637-40. doi: 10.1097/mao.0b013e3180577919.
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