Preservation of rhythmic clocking in cochlear implant users: a study of isochronous versus anisochronous beat detection.

Irene Kim, Eunice Yang, Patrick J Donnelly, Charles J Limb
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引用次数: 13

Abstract

The capacity for internal rhythmic clocking involves a relationship between perceived auditory input and subsequent cognitive processing by which isochronous auditory stimuli induce a temporal beat expectancy in a listener. Although rhythm perception has previously been examined in cochlear implant (CI) users through various tasks based primarily on rhythm pattern identification, such tasks may not have been sufficiently nuanced to detect defects in internal rhythmic clocking, which requires temporal integration on a scale of milliseconds. The present study investigated the preservation of such rhythmic clocking in CI participants through a task requiring detection of isochronicity in the final beat of a four-beat series presented at different tempos. Our results show that CI users performed comparably to normal hearing (NH) participants in all isochronous rhythm detection tasks but that professionally trained musicians (MUS) significantly outperformed both NH and CI participants. These results suggest that CI users have intact rhythm perception even on a temporally demanding task that requires tight preservation of timing differences between a series of auditory events. Also, these results suggest that musical training might improve rhythmic clocking in CI users beyond normal hearing levels, which may be useful in light of the deficits in spectral processing commonly observed in CI users.

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人工耳蜗使用者节律性时钟的保存:等时与异时心跳检测的研究。
内部节律时钟的能力涉及感知听觉输入和随后的认知处理之间的关系,通过等时听觉刺激诱导听者的时间节拍预期。虽然以前已经通过主要基于节奏模式识别的各种任务在人工耳蜗(CI)用户中进行了节奏感知检测,但这些任务可能不够细致,无法检测到内部节奏时钟的缺陷,这需要毫秒级的时间整合。本研究通过一项要求检测以不同速度呈现的四拍系列的最后一拍的等时性的任务,调查了CI参与者中这种节律性时钟的保存。我们的研究结果表明,在所有等时节奏检测任务中,CI用户的表现与正常听力(NH)参与者相当,但经过专业训练的音乐家(MUS)的表现明显优于NH和CI参与者。这些结果表明,CI使用者即使在需要严格保留一系列听觉事件之间的时间差异的时间要求较高的任务中,也能保持完整的节奏感知。此外,这些结果表明,音乐训练可能会改善超过正常听力水平的CI用户的节奏时钟,这可能对在CI用户中普遍观察到的频谱处理缺陷有用。
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来源期刊
Trends in Amplification
Trends in Amplification AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY-OTORHINOLARYNGOLOGY
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