Department of Speech Pathology and Audiology, The University of South Alabama, Mobile, Alabama.
Department of Audiology and Speech Pathology, The University of Tennessee Health Science Center, , Knoxville, Tennessee.
J Am Acad Audiol. 2022 Apr;33(4):232-243. doi: 10.1055/a-1764-9805. Epub 2022 Feb 7.
Spectral shaping is employed by hearing aids to make consonantal information, such as formant transitions, audible for listeners with hearing loss. How manipulations of the stimuli, such as spectral shaping, may alter encoding in the auditory brainstem has not been thoroughly studied.
The aim of this study was to determine how spectral shaping of synthetic consonant-vowel (CV) syllables, varying in their second formant (F2) onset frequency, may affect encoding of the syllables in the auditory brainstem.
We employed a repeated measure design.
Sixteen young adults (mean = 20.94 years, 6 males) and 11 older adults (mean = 58.60 years, 4 males) participated in this study.
Speech-evoked auditory brainstem responses (speech-ABRs) were obtained from each participant using three CV exemplars selected from synthetic stimuli generated for a /ba-da-ga/ continuum. Brainstem responses were also recorded to corresponding three CV exemplars that were spectrally shaped to decrease low-frequency information and provide gain for middle and high frequencies according to a Desired Sensation Level function. In total, six grand average waveforms (3 phonemes [/ba/, /da/, /ga/] X 2 shaping conditions [unshaped, shaped]) were produced for each participant. Peak latencies and amplitudes, referenced to prestimulus baseline, were identified for 15 speech-ABR peaks. Peaks were marked manually using the program cursor on each individual waveform. Repeated-measures analysis of variances were used to determine the effects of shaping on the latencies and amplitudes of the speech-ABR peaks.
Shaping effects produced changes within participants in ABR latencies and amplitudes involving onset and major peaks of the speech-ABR waveform for certain phonemes. Specifically, data from onset peaks showed that shaping decreased latency for /ga/ in older listeners, and decreased amplitude onset for /ba/ in younger listeners. Shaping also increased the amplitudes of major peaks for /ga/ stimuli in both groups.
Encoding of speech in the ABR waveform may be more complex and multidimensional than a simple demarcation of source and filter information, and may also be influenced by cue intensity and age. These results suggest a more complex subcortical encoding of vocal tract filter information in the ABR waveform, which may also be influenced by cue intensity and age.
助听器采用频谱整形技术使听力损失患者能够感知到辅音信息,如共振峰过渡。但是,频谱整形等刺激的处理方式如何改变听觉脑干的编码尚未得到彻底研究。
本研究旨在确定频谱整形对第二共振峰(F2)起始频率不同的合成辅音-元音(CV)音节的影响,以及这些音节在听觉脑干中的编码方式。
我们采用了重复测量设计。
16 名年轻成年人(平均年龄 20.94 岁,6 名男性)和 11 名老年成年人(平均年龄 58.60 岁,4 名男性)参与了这项研究。
使用从合成刺激中选择的三个 CV 示例,通过言语诱发听觉脑干反应(speech-ABR)从每个参与者中获取数据。这些示例对应于根据期望感觉水平(Desired Sensation Level)函数降低低频信息并为中高频提供增益的三个 CV 示例。总共为每个参与者生成了六个平均幅度波形(3 个音素[ /ba/ 、 /da/ 、 /ga/ ]X2 个形状条件[未整形、整形])。参考刺激前基线,识别了 15 个 speech-ABR 波峰的潜伏期和幅度。使用程序光标手动标记每个个体波形上的波峰。使用重复测量方差分析确定整形对 speech-ABR 波峰潜伏期和幅度的影响。
在某些音素中,整形会引起参与者的 ABR 潜伏期和幅度的变化,包括 speech-ABR 波形的起始和主要波峰。具体来说,来自起始波峰的数据表明,整形会降低老年听众对 /ga/的潜伏期,并降低年轻听众对 /ba/的起始幅度。整形还增加了两组中 /ga/刺激的主要波峰的幅度。
ABR 波中的语音编码可能比简单的源和滤波器信息的划分更复杂和多维,并且可能受到线索强度和年龄的影响。这些结果表明,ABR 波中声道滤波器信息的亚皮质编码更为复杂,也可能受到线索强度和年龄的影响。
