市售人工耳蜗声音处理器中自适应信号处理的益处

Benefits of Adaptive Signal Processing in a Commercially Available Cochlear Implant Sound Processor.

作者信息

Wolfe Jace, Neumann Sara, Marsh Megan, Schafer Erin, Lianos Leslie, Gilden Jan, O'Neill Lori, Arkis Pete, Menapace Christine, Nel Esti, Jones Marian

机构信息

*Hearts for Hearing Foundation, Oklahoma City, Oklahoma; †Speech and Hearing Department, University of North Texas, Denton, Texas; ‡Dallas Ear Institute, Dallas, Texas; §Houston Ear Research Foundation, Houston, Texas; ∥Cochlear Americas, Centennial, Colorado, U.S.A.; and ¶Cochlear Limited, Sydney, Australia.

出版信息

Otol Neurotol. 2015 Aug;36(7):1181-90. doi: 10.1097/MAO.0000000000000781.

DOI:10.1097/MAO.0000000000000781

PMID:26049314

Abstract

OBJECTIVE

Cochlear implant recipients often experience difficulty understanding speech in noise. The primary objective of this study was to evaluate the potential improvement in speech recognition in noise provided by an adaptive, commercially available sound processor that performs acoustic scene classification and automatically adjusts input signal processing to maximize performance in noise.

RESEARCH DESIGN

Within-subjects, repeated-measures design.

SETTING

This multicenter study was conducted across five sites in the U.S.A. and Australia.

PATIENTS

Ninety-three adults and children with Nucleus Freedom, CI422, and CI512 cochlear implants.

INTERVENTION

Subjects (previous users of the Nucleus 5 sound processor) were fitted with the Nucleus 6 sound processor. Performance was assessed while these subjects used each sound processor in the manufacturer's recommended default program (standard directionality, ASC + ADRO for the Nucleus 5 processor and ASC + ADRO and SNR-NR with SCAN for the Nucleus 6 sound processor). The subjects were also evaluated with the Nucleus 6 with standard directionality, ASC + ADRO and SNR-NR enabled but SCAN disabled.

MAIN OUTCOME MEASURES

Speech recognition in noise was assessed with AzBio sentences.

RESULTS

Sentence recognition in noise was significantly better with the Nucleus 6 sound processor when used with the default input processing (ASC + ADRO, SNR-NR, and SCAN) compared to performance with the Nucleus 5 sound processor and default input processing (standard directionality, ASC + ADRO). Specifically, use of the Nucleus 6 at default settings resulted in a mean improvement in sentence recognition in noise of 27 percentage points relative to performance with the Nucleus 5 sound processor. Use of the Nucleus 6 sound processor using standard directionality, ASC + ADRO and SNR-NR (SCAN disabled) resulted in a mean improvement of 9 percentage points in sentence recognition in noise compared to performance with the Nucleus 5.

CONCLUSION

The results of this study suggest that the Nucleus 6 sound processor with acoustic scene classification, automatic, adaptive directionality, and speech enhancement in noise processing provides significantly better speech recognition in noise when compared to performance with the Nucleus 5 processor.

摘要

目的

人工耳蜗植入者在嘈杂环境中理解言语往往存在困难。本研究的主要目的是评估一种自适应的、市售的声音处理器所带来的在噪声中言语识别能力的潜在改善，该处理器可进行声学场景分类并自动调整输入信号处理，以在噪声中实现最佳性能。

研究设计

受试者内重复测量设计。

研究地点

这项多中心研究在美国和澳大利亚的五个地点进行。

患者

93名使用Nucleus Freedom、CI422和CI512人工耳蜗的成人及儿童。

干预措施

受试者（之前使用Nucleus 5声音处理器）佩戴Nucleus 6声音处理器。在这些受试者按照制造商推荐的默认程序使用每个声音处理器时评估其性能（标准方向性，Nucleus 5处理器为ASC + ADRO，Nucleus 6声音处理器为ASC + ADRO以及带SCAN功能的SNR-NR）。还对受试者使用标准方向性、启用ASC + ADRO和SNR-NR但禁用SCAN功能的Nucleus 6进行了评估。

主要观察指标

使用AzBio句子评估噪声中的言语识别能力。

结果

与使用Nucleus 5声音处理器及默认输入处理（标准方向性，ASC + ADRO）相比，使用Nucleus 6声音处理器并采用默认输入处理（ASC + ADRO、SNR-NR和SCAN）时，噪声中的句子识别能力显著更好。具体而言，在默认设置下使用Nucleus 6时，相对于使用Nucleus 5声音处理器，噪声中句子识别能力平均提高了27个百分点。与使用Nucleus 5相比，使用标准方向性、ASC + ADRO和SNR-NR（禁用SCAN）的Nucleus 6声音处理器时，噪声中句子识别能力平均提高了9个百分点。