听力正常、佩戴助听器及接受人工耳蜗植入的儿童的双耳音调融合
Binaural Pitch Fusion in Children With Normal Hearing, Hearing Aids, and Cochlear Implants.
作者信息
Hartling Curtis L, Fowler Jennifer R, Stark Gemaine N, Glickman Bess, Eddolls Morgan, Oh Yonghee, Ramsey Katrina, Reiss Lina A J
机构信息
Department of Otolaryngology, Oregon Health and Science University, Portland, Oregon, USA.
Biostatistics and Design Program, Oregon Health and Science University, Portland, Oregon, USA.
出版信息
Ear Hear. 2020 Nov/Dec;41(6):1545-1559. doi: 10.1097/AUD.0000000000000874.
OBJECTIVES
Binaural pitch fusion is the perceptual integration of stimuli that evoke different pitches between the ears into a single auditory image. Adults who use hearing aids (HAs) or cochlear implants (CIs) often experience abnormally broad binaural pitch fusion, such that sounds differing in pitch by as much as 3 to 4 octaves are fused across ears, leading to spectral averaging and speech perception interference. The main goal of this study was to measure binaural pitch fusion in children with different hearing device combinations and compare results across groups and with adults. A second goal was to examine the relationship of binaural pitch fusion to interaural pitch differences or pitch match range, a measure of sequential pitch discriminability.
DESIGN
Binaural pitch fusion was measured in children between the ages of 6.1 and 11.1 years with bilateral HAs (n = 9), bimodal CI (n = 10), bilateral CIs (n = 17), as well as normal-hearing (NH) children (n = 21). Depending on device combination, stimuli were pure tones or electric pulse trains delivered to individual electrodes. Fusion ranges were measured using simultaneous, dichotic presentation of reference and comparison stimuli in opposite ears, and varying the comparison stimulus to find the range that fused with the reference stimulus. Interaural pitch match functions were measured using sequential presentation of reference and comparison stimuli, and varying the comparison stimulus to find the pitch match center and range.
RESULTS
Children with bilateral HAs had significantly broader binaural pitch fusion than children with NH, bimodal CI, or bilateral CIs. Children with NH and bilateral HAs, but not children with bimodal or bilateral CIs, had significantly broader fusion than adults with the same hearing status and device configuration. In children with bilateral CIs, fusion range was correlated with several variables that were also correlated with each other: pure-tone average in the second implanted ear before CI, and duration of prior bilateral HA, bimodal CI, or bilateral CI experience. No relationship was observed between fusion range and pitch match differences or range.
CONCLUSIONS
The findings suggest that binaural pitch fusion is still developing in this age range and depends on hearing device combination but not on interaural pitch differences or discriminability.
目的
双耳音高融合是指将两耳间引发不同音高的刺激整合为单一听觉图像的感知过程。使用助听器(HA)或人工耳蜗(CI)的成年人常常会经历异常宽泛的双耳音高融合,以至于音高相差多达3至4个八度的声音会在两耳间融合,从而导致频谱平均化和言语感知干扰。本研究的主要目标是测量不同听力设备组合的儿童的双耳音高融合情况,并比较各群体之间以及与成年人的结果。第二个目标是研究双耳音高融合与耳间音高差异或音高匹配范围(一种顺序音高辨别能力的指标)之间的关系。
设计
对年龄在6.1至11.1岁之间、佩戴双侧HA(n = 9)、双模式CI(n = 10)、双侧CI(n = 17)的儿童以及听力正常(NH)儿童(n = 21)进行双耳音高融合测量。根据设备组合,刺激为纯音或发送至单个电极的电脉冲序列。融合范围通过在对侧耳中同时、双耳分听呈现参考刺激和比较刺激来测量,并改变比较刺激以找到与参考刺激融合的范围。耳间音高匹配函数通过顺序呈现参考刺激和比较刺激,并改变比较刺激以找到音高匹配中心和范围来测量。
结果
佩戴双侧HA的儿童的双耳音高融合范围显著宽于NH儿童、双模式CI儿童或双侧CI儿童。NH儿童和佩戴双侧HA的儿童,而非双模式或双侧CI儿童,其融合范围显著宽于具有相同听力状态和设备配置的成年人。在佩戴双侧CI的儿童中,融合范围与几个相互关联的变量相关:CI植入前第二只植入耳的纯音平均值,以及先前双侧HA、双模式CI或双侧CI使用时间。未观察到融合范围与音高匹配差异或范围之间的关系。
结论
研究结果表明,在这个年龄范围内双耳音高融合仍在发展,且取决于听力设备组合,而非耳间音高差异或辨别能力。
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