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本文引用的文献

1
Effects of Hearing Impairment and Hearing Aid Amplification on Listening Effort: A Systematic Review.听力障碍及助听器放大对聆听努力的影响:一项系统综述
Ear Hear. 2017 May/Jun;38(3):267-281. doi: 10.1097/AUD.0000000000000396.
2
Effects of Noise on Speech Recognition and Listening Effort in Children With Normal Hearing and Children With Mild Bilateral or Unilateral Hearing Loss.噪声对听力正常儿童以及双侧或单侧轻度听力损失儿童的言语识别和聆听努力的影响。
J Speech Lang Hear Res. 2016 Oct 1;59(5):1218-1232. doi: 10.1044/2016_JSLHR-H-15-0207.
3
Hearing Impairment and Cognitive Energy: The Framework for Understanding Effortful Listening (FUEL).听力障碍与认知能量:理解费力听力的框架(FUEL)
Ear Hear. 2016 Jul-Aug;37 Suppl 1:5S-27S. doi: 10.1097/AUD.0000000000000312.
4
Nonlinear frequency compression: Influence of start frequency and input bandwidth on consonant and vowel recognition.非线性频率压缩:起始频率和输入带宽对辅音和元音识别的影响。
J Acoust Soc Am. 2016 Feb;139(2):938-57. doi: 10.1121/1.4941916.
5
Language Outcomes in Young Children with Mild to Severe Hearing Loss.轻度至重度听力损失幼儿的语言发展结果
Ear Hear. 2015 Nov-Dec;36 Suppl 1(0 1):76S-91S. doi: 10.1097/AUD.0000000000000219.
6
Speech Recognition and Parent Ratings From Auditory Development Questionnaires in Children Who Are Hard of Hearing.听力障碍儿童听觉发展问卷中的语音识别与家长评分
Ear Hear. 2015 Nov-Dec;36 Suppl 1(0 1):60S-75S. doi: 10.1097/AUD.0000000000000213.
7
Salivary Cortisol Profiles of Children with Hearing Loss.听力损失儿童的唾液皮质醇水平
Ear Hear. 2016 May-Jun;37(3):334-44. doi: 10.1097/AUD.0000000000000256.
8
Benefits of Nonlinear Frequency Compression in Adult Hearing Aid Users.成人助听器使用者中非线性频率压缩的益处
J Am Acad Audiol. 2015 Nov-Dec;26(10):838-55. doi: 10.3766/jaaa.15022.
9
A Comparison of Two Methods for Measuring Listening Effort As Part of an Audiologic Test Battery.作为听力学测试组一部分的两种测量听力努力方法的比较
Am J Audiol. 2015 Sep;24(3):419-31. doi: 10.1044/2015_AJA-14-0058.
10
Predictors of aided speech recognition, with and without frequency compression, in older adults.老年人中使用和不使用频率压缩时辅助言语识别的预测因素。
Int J Audiol. 2015 Jul;54(7):467-75. doi: 10.3109/14992027.2014.996825. Epub 2015 Mar 9.

针对听力损失儿童和成人的频率压缩放大技术下的聆听努力与言语识别

Listening Effort and Speech Recognition with Frequency Compression Amplification for Children and Adults with Hearing Loss.

作者信息

Brennan Marc A, Lewis Dawna, McCreery Ryan, Kopun Judy, Alexander Joshua M

机构信息

Amplification and Perception Laboratory, Boys Town National Research Hospital, Omaha, NE.

Ear Laboratory, Purdue University, West Lafayette, IN.

出版信息

J Am Acad Audiol. 2017 Oct;28(9):823-837. doi: 10.3766/jaaa.16158.

DOI:10.3766/jaaa.16158
PMID:28972471
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5634744/
Abstract

BACKGROUND

Nonlinear frequency compression (NFC) can improve the audibility of high-frequency sounds by lowering them to a frequency where audibility is better; however, this lowering results in spectral distortion. Consequently, performance is a combination of the effects of increased access to high-frequency sounds and the detrimental effects of spectral distortion. Previous work has demonstrated positive benefits of NFC on speech recognition when NFC is set to improve audibility while minimizing distortion. However, the extent to which NFC impacts listening effort is not well understood, especially for children with sensorineural hearing loss (SNHL).

PURPOSE

To examine the impact of NFC on recognition and listening effort for speech in adults and children with SNHL.

RESEARCH DESIGN

Within-subject, quasi-experimental study. Participants listened to amplified nonsense words that were (1) frequency-lowered using NFC, (2) low-pass filtered at 5 kHz to simulate the restricted bandwidth (RBW) of conventional hearing aid processing, or (3) low-pass filtered at 10 kHz to simulate extended bandwidth (EBW) amplification.

STUDY SAMPLE

Fourteen children (8-16 yr) and 14 adults (19-65 yr) with mild-to-severe SNHL.

INTERVENTION

Participants listened to speech processed by a hearing aid simulator that amplified input signals to fit a prescriptive target fitting procedure.

DATA COLLECTION AND ANALYSIS

Participants were blinded to the type of processing. Participants' responses to each nonsense word were analyzed for accuracy and verbal-response time (VRT; listening effort). A multivariate analysis of variance and linear mixed model were used to determine the effect of hearing-aid signal processing on nonsense word recognition and VRT.

RESULTS

Both children and adults identified the nonsense words and initial consonants better with EBW and NFC than with RBW. The type of processing did not affect the identification of the vowels or final consonants. There was no effect of age on recognition of the nonsense words, initial consonants, medial vowels, or final consonants. VRT did not change significantly with the type of processing or age.

CONCLUSION

Both adults and children demonstrated improved speech recognition with access to the high-frequency sounds in speech. Listening effort as measured by VRT was not affected by access to high-frequency sounds.

摘要

背景

非线性频率压缩(NFC)可通过将高频声音降低到可听度更好的频率来提高其可听性;然而,这种降低会导致频谱失真。因此,其性能是增加高频声音可及性的效果与频谱失真的有害影响的综合结果。先前的研究表明,当NFC设置为在最小化失真的同时提高可听性时,对语音识别有积极益处。然而,NFC对聆听努力的影响程度尚未得到很好的理解,尤其是对于感音神经性听力损失(SNHL)的儿童。

目的

研究NFC对成人和SNHL儿童语音识别及聆听努力的影响。

研究设计

受试者内准实验研究。参与者听取经放大的无意义单词,这些单词分别经过以下处理:(1)使用NFC进行频率降低;(2)在5kHz处进行低通滤波以模拟传统助听器处理的受限带宽(RBW);或(3)在10kHz处进行低通滤波以模拟扩展带宽(EBW)放大。

研究样本

14名年龄在8至16岁的儿童和14名年龄在19至65岁的成人,均患有轻至重度SNHL。

干预措施

参与者听取由助听器模拟器处理的语音,该模拟器将输入信号放大以符合规定的目标适配程序。

数据收集与分析

参与者对处理类型不知情。分析参与者对每个无意义单词的反应的准确性和言语反应时间(VRT;聆听努力)。使用多变量方差分析和线性混合模型来确定助听器信号处理对无意义单词识别和VRT的影响。

结果

与RBW相比,儿童和成人对无意义单词及初始辅音的识别在EBW和NFC条件下均更好。处理类型对元音或末尾辅音的识别没有影响。年龄对无意义单词、初始辅音、中间元音或末尾辅音的识别没有影响。VRT不会随处理类型或年龄而显著变化。

结论

成人和儿童在能够听到语音中的高频声音时,语音识别均得到改善。通过VRT衡量的聆听努力不受高频声音可及性的影响。