Kasdan Anna V, Butera Iliza M, DeFreese Andrea J, Rowland Jess, Hilbun Allison Leich, Gordon Reyna L, Wallace Mark T, Gifford René H
Vanderbilt Brain Institute, Vanderbilt University, Nashville, TN, USA.
Curb Center for Art, Enterprise, and Public Policy, Nashville, TN, USA.
Audit Percept Cogn. 2024;7(3):179-202. doi: 10.1080/25742442.2024.2313430. Epub 2024 Feb 12.
The speech-to-song illusion is a robust effect where repeated speech induces the perception of singing; this effect has been extended to repeated excerpts of environmental sounds (sound-to-music effect). Here we asked whether repetition could elicit musical percepts in cochlear implant (CI) users, who experience challenges with perceiving music due to both physiological and device limitations.
Thirty adult CI users and thirty age-matched controls with normal hearing (NH) completed two repetition experiments for speech and nonspeech sounds (water droplets). We hypothesized that CI users would experience the sound-to-music effect from temporal/rhythmic cues alone, but to a lesser magnitude compared to NH controls, given the limited access to spectral information CI users receive from their implants.
We found that CI users did experience the sound-to-music effect but to a lesser degree compared to NH participants. Musicality ratings were not associated with musical training or frequency resolution, and among CI users, clinical variables like duration of hearing loss also did not influence ratings.
Cochlear implants provide a strong clinical model for disentangling the effects of spectral and temporal information in an acoustic signal; our results suggest that temporal cues are sufficient to perceive the sound-to-music effect when spectral resolution is limited. Additionally, incorporating short repetitions into music specially designed for CI users may provide a promising way for them to experience music.
言语-歌曲错觉是一种强烈的效应,即重复的言语会引发歌唱的感知;这种效应已扩展到环境声音的重复片段(声音-音乐效应)。在这里,我们探讨了重复是否能在人工耳蜗(CI)使用者中引发音乐感知,这些使用者由于生理和设备限制在感知音乐方面面临挑战。
30名成年CI使用者和30名年龄匹配的听力正常(NH)对照者完成了针对言语和非言语声音(水滴声)的两项重复实验。我们假设,鉴于CI使用者从其植入物获得的频谱信息有限,他们仅通过时间/节奏线索就能体验到声音-音乐效应,但程度低于NH对照者。
我们发现CI使用者确实体验到了声音-音乐效应,但程度低于NH参与者。音乐性评分与音乐训练或频率分辨率无关,在CI使用者中,诸如听力损失持续时间等临床变量也不影响评分。
人工耳蜗为区分声学信号中频谱和时间信息的影响提供了一个强大的临床模型;我们的结果表明,当频谱分辨率有限时,时间线索足以感知声音-音乐效应。此外,将短重复片段融入专门为CI使用者设计的音乐中,可能为他们体验音乐提供一种有前景的方式。
