Neural oscillations suggest periodicity encoding during auditory beat processing in the premature brain

IF 3.1 1区 心理学 Q2 PSYCHOLOGY, DEVELOPMENTAL
Mohammadreza Edalati, Fabrice Wallois, Ghida Ghostine, Guy Kongolo, Laurel J. Trainor, Sahar Moghimi
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引用次数: 0

Abstract

When exposed to rhythmic patterns with temporal regularity, adults exhibit an inherent ability to extract and anticipate an underlying sequence of regularly spaced beats, which is internally constructed, as beats are experienced even when no events occur at beat positions (e.g., in the case of rests). Perception of rhythm and synchronization to periodicity is indispensable for development of cognitive functions, social interaction, and adaptive behavior. We evaluated neural oscillatory activity in premature newborns (n = 19, mean age, 32 ± 2.59 weeks gestational age) during exposure to an auditory rhythmic sequence, aiming to identify early traces of periodicity encoding and rhythm processing through entrainment of neural oscillations at this stage of neurodevelopment. The rhythmic sequence elicited a systematic modulation of alpha power, synchronized to expected beat locations coinciding with both tones and rests, and independent of whether the beat was preceded by tone or rest. In addition, the periodic alpha-band fluctuations reached maximal power slightly before the corresponding beat onset times. Together, our results show neural encoding of periodicity in the premature brain involving neural oscillations in the alpha range that are much faster than the beat tempo, through alignment of alpha power to the beat tempo, consistent with observations in adults on predictive processing of temporal regularities in auditory rhythms.

Research Highlights

  • In response to the presented rhythmic pattern, systematic modulations of alpha power showed that the premature brain extracted the temporal regularity of the underlying beat.

  • In contrast to evoked potentials, which are greatly reduced when there is no sounds event, the modulation of alpha power occurred for beats coinciding with both tones and rests in a predictive way.

  • The findings provide the first evidence for the neural coding of periodicity in auditory rhythm perception before the age of term.

Abstract Image

神经振荡表明早产儿大脑在进行听觉节拍处理时存在周期性编码。
当接触到具有时间规律性的节奏模式时,成人会表现出一种固有的能力,即提取和预测有规律间隔的节拍的基本序列,这种序列是内部构建的,因为即使在节拍位置上没有发生任何事件(如休止符),人们也会体验到节拍。对节奏的感知和与周期性的同步对于认知功能、社会交往和适应行为的发展是不可或缺的。我们评估了早产新生儿(n = 19,平均年龄为 32 ± 2.59 孕周)在接触听觉节奏序列时的神经振荡活动,旨在通过神经振荡的夹带来识别神经发育阶段周期性编码和节奏处理的早期痕迹。节奏序列引起了α功率的系统性调节,与预期节拍位置同步,与音调和休止符相吻合,且与节拍前是否有音调或休止符无关。此外,周期性α波段波动的最大功率略早于相应节拍的开始时间。总之,我们的研究结果表明,早产儿大脑对周期性的神经编码涉及α波段的神经振荡,这种神经振荡比节拍节奏快得多,是通过α功率与节拍节奏的一致性来实现的,这与成人对听觉节奏中时间规律性的预测性处理的观察结果是一致的。研究亮点针对所呈现的节奏模式,α功率的系统性调节表明,早产儿大脑提取了基本节拍的时间规律性。与诱发电位不同的是,α功率的调节以预测的方式发生在与音调和休止符重合的节拍上。这些研究结果首次证明了神经编码的周期性在婴儿满月前的听觉节奏感知中的作用。
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来源期刊
CiteScore
8.10
自引率
8.10%
发文量
132
期刊介绍: Developmental Science publishes cutting-edge theory and up-to-the-minute research on scientific developmental psychology from leading thinkers in the field. It is currently the only journal that specifically focuses on human developmental cognitive neuroscience. Coverage includes: - Clinical, computational and comparative approaches to development - Key advances in cognitive and social development - Developmental cognitive neuroscience - Functional neuroimaging of the developing brain
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