更换乐器如何影响人工耳蜗使用者的音高辨别能力。
How Switching Musical Instruments Affects Pitch Discrimination for Cochlear Implant Users.
作者信息
O'Connell Samantha Reina, Bissmeyer Susan R S, Gan Helena, Goldsworthy Raymond Lee
机构信息
Caruso Department of Otolaryngology - Head and Neck Surgery, Keck School of Medicine, University of Southern California, Los Angeles, California, USA.
出版信息
Ear Hear. 2025;46(4):997-1008. doi: 10.1097/AUD.0000000000001640. Epub 2025 Jun 16.
OBJECTIVES
Cochlear implant (CI) users struggle with music perception. Generally, they have poorer pitch discrimination and timbre identification than peers with normal hearing, which reduces their overall music appreciation and quality of life. This study's primary aim was to characterize how the increased difficulty of comparing pitch changes across musical instruments affects CI users and their peers with no known hearing loss. The motivation is to better understand the challenges that CI users face with polyphonic music listening. The primary hypothesis was that CI users would be more affected by instrument switching than those with no known hearing loss. The rationale was that poorer pitch and timbre perception through a CI hinders the disassociation between pitch and timbre changes needed for this demanding task.
DESIGN
Pitch discrimination was measured for piano and tenor saxophone including conditions with pitch comparisons across instruments. Adult participants included 15 CI users and 15 peers with no known hearing loss. Pitch discrimination was measured for 4 note ranges centered on A2 (110 Hz), A3 (220 Hz), A4 (440 Hz), and A5 (880 Hz). The effect of instrument switching was quantified as the change in discrimination thresholds with and without instrument switching. Analysis of variance and Spearman's rank correlation were used to test group differences and relational outcomes, respectively.
RESULTS
Although CI users had worse pitch discrimination, the additional difficulty of instrument switching did not significantly differ between groups. Discrimination thresholds in both groups were about two times worse with instrument switching than without. Further analyses, however, revealed that CI users were biased toward ranking tenor saxophone higher in pitch compared with piano, whereas those with no known hearing loss were not so biased. In addition, CI users were significantly more affected by instrument switching for the A5 note range.
CONCLUSIONS
The magnitude of the effect of instrument switching on pitch resolution was similar for CI users and their peers with no known hearing loss. However, CI users were biased toward ranking tenor saxophone as higher in pitch and were significantly more affected by instrument switching for pitches near A5. These findings might reflect poorer temporal coding of fundamental frequency by CIs.
目的
人工耳蜗(CI)使用者在音乐感知方面存在困难。一般来说,与听力正常的同龄人相比,他们的音高辨别能力和音色识别能力较差,这降低了他们的整体音乐欣赏水平和生活质量。本研究的主要目的是描述跨乐器比较音高变化难度的增加如何影响CI使用者及其听力正常的同龄人。其动机是更好地理解CI使用者在听复调音乐时面临的挑战。主要假设是,与听力正常的人相比,CI使用者受乐器转换的影响更大。理由是通过人工耳蜗对音高和音色的感知较差,阻碍了这项高要求任务所需的音高和音色变化之间的区分。
设计
测量了钢琴和次中音萨克斯管的音高辨别能力,包括跨乐器音高比较的情况。成年参与者包括15名CI使用者和15名听力正常的同龄人。在以A2(110赫兹)、A3(220赫兹)、A4(440赫兹)和A5(880赫兹)为中心的4个音符范围内测量音高辨别能力。将乐器转换的影响量化为有乐器转换和无乐器转换时辨别阈值的变化。分别使用方差分析和斯皮尔曼等级相关来测试组间差异和相关结果。
结果
尽管CI使用者的音高辨别能力较差,但两组之间乐器转换带来的额外难度没有显著差异。两组在有乐器转换时的辨别阈值比无乐器转换时大约差两倍。然而,进一步分析表明,与钢琴相比,CI使用者倾向于将次中音萨克斯管的音高排名更高,而听力正常的人则没有这种偏向。此外,CI使用者在A5音符范围内受乐器转换的影响明显更大。
结论
对于CI使用者及其听力正常的同龄人来说,乐器转换对音高分辨率的影响程度相似。然而,CI使用者倾向于将次中音萨克斯管的音高排名更高,并且在接近A5的音高上受乐器转换的影响明显更大。这些发现可能反映了人工耳蜗对基频的时间编码较差。
Zotero 插件