Musical Training Predicts Cerebello-Hippocampal Coupling During Music Listening

IF 0.6 0 MUSIC Psychomusicology Pub Date : 2018-07-01 DOI:10.1037/pmu0000215
I. Burunat, E. Brattico, M. Hartmann, P. Vuust, Teppo Särkämö, P. Toiviainen
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引用次数: 10

Abstract

Cerebello-hippocampal interactions occur during accurate spatiotemporal prediction of movements. In the context of music listening, differences in cerebello-hippocampal functional connectivity may result from differences in predictive listening accuracy. Using functional MRI, we studied differences in this network between 18 musicians and 18 nonmusicians while they listened to music. Musicians possess a predictive listening advantage over nonmusicians, facilitated by strengthened coupling between produced and heard sounds through lifelong musical experience. Thus, we hypothesized that musicians would exhibit greater functional connectivity than nonmusicians as a marker of accurate online predictions during music listening. To this end, we estimated the functional connectivity between cerebellum and hippocampus as modulated by a perceptual measure of the predictability of the music. Results revealed increased predictability-driven functional connectivity in this network in musicians compared with nonmusicians, which was positively correlated with the length of musical training. Findings may be explained by musicians’ improved predictive listening accuracy. Our findings advance the understanding of cerebellar integrative function.
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音乐训练预测听音乐时小脑-海马的耦合
小脑-海马的相互作用发生在运动的准确时空预测过程中。在音乐聆听的背景下,小脑-海马功能连通性的差异可能是由预测聆听准确性的差异引起的。使用功能性核磁共振成像,我们研究了18名音乐家和18名非音乐家在听音乐时这个网络的差异。音乐家比非音乐家具有预见性的听觉优势,这是通过终生的音乐经历加强了发出的声音和听到的声音之间的耦合。因此,我们假设音乐家在听音乐时表现出比非音乐家更强的功能连通性,作为准确在线预测的标志。为此,我们估计小脑和海马体之间的功能连接是通过对音乐可预测性的感知测量来调节的。结果显示,与非音乐家相比,音乐家在该网络中可预测性驱动的功能连接增加,这与音乐训练的长度呈正相关。这一发现或许可以用音乐家预测听力准确性的提高来解释。我们的发现促进了对小脑整合功能的理解。
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来源期刊
Psychomusicology
Psychomusicology Multiple-
自引率
0.00%
发文量
13
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