电声联合刺激与言语感知获益之间的频率重叠。

Frequency overlap between electric and acoustic stimulation and speech-perception benefit in patients with combined electric and acoustic stimulation.

机构信息

Department of Hearing and Speech Sciences, University of Maryland at College Park, Maryland, USA.

出版信息

Ear Hear. 2010 Apr;31(2):195-201. doi: 10.1097/AUD.0b013e3181c4758d.

DOI:10.1097/AUD.0b013e3181c4758d

PMID:19915474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2836422/

Abstract

OBJECTIVES

Our aim was to assess, for patients with a cochlear implant in one ear and low-frequency acoustic hearing in the contralateral ear, whether reducing the overlap in frequencies conveyed in the acoustic signal and those analyzed by the cochlear implant speech processor would improve speech recognition.

DESIGN

The recognition of monosyllabic words in quiet and sentences in noise was evaluated in three listening configurations: electric stimulation alone, acoustic stimulation alone, and combined electric and acoustic stimulation. The acoustic stimuli were either unfiltered or low-pass (LP) filtered at 250, 500, or 750 Hz. The electric stimuli were either unfiltered or high-pass (HP) filtered at 250, 500, or 750 Hz. In the combined condition, the unfiltered acoustic signal was paired with the unfiltered electric signal, the 250-Hz LP acoustic signal was paired with the 250-Hz HP electric signal, the 500-Hz LP acoustic signal was paired with the 500-Hz HP electric signal, and the 750-Hz LP acoustic signal was paired with the 750-Hz HP electric signal.

RESULTS

For both acoustic and electric signals, performance increased as the bandwidth increased. The highest level of performance in the combined condition was observed in the unfiltered acoustic plus unfiltered electric condition.

CONCLUSIONS

Reducing the overlap in frequency representation between acoustic and electric stimulation does not increase speech understanding scores for patients who have residual hearing in the ear contralateral to the implant. We find that acoustic information <250 Hz significantly improves performance for patients who combine electric and acoustic stimulation and accounts for the majority of the speech-perception benefit when acoustic stimulation is combined with electric stimulation.

摘要

目的

对于一侧植入人工耳蜗、对侧低频残余听力的患者，我们旨在评估减少声学信号与人工耳蜗言语处理器分析的频率重叠是否会提高言语识别率。

设计

在三种聆听配置下评估单音节词在安静环境中的识别和噪声中的句子识别：单独电刺激、单独声学刺激和电声联合刺激。声学刺激未滤波或低通（LP）滤波在 250、500 或 750 Hz。电刺激未滤波或高通（HP）滤波在 250、500 或 750 Hz。在联合条件下，未滤波的声学信号与未滤波的电信号配对，250 Hz LP 声学信号与 250 Hz HP 电信号配对，500 Hz LP 声学信号与 500 Hz HP 电信号配对，750 Hz LP 声学信号与 750 Hz HP 电信号配对。

结果

对于声学和电信号，带宽增加时性能提高。在联合条件下，性能最高的是未滤波的声学信号加上未滤波的电信号。

结论

减少电声刺激频率代表之间的重叠并不会提高对植入侧对侧有残余听力的患者的言语理解得分。我们发现，250 Hz 以下的声学信息显著提高了同时进行电声刺激的患者的表现，并且当声学刺激与电刺激结合时，占言语感知益处的大部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8816/2836422/a5ec88a0199a/nihms167251f1.jpg

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