Longitudinal trajectories of the neural encoding mechanisms of speech-sound features during the first year of life

IF 2.1 2区心理学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Brain and Language Pub Date : 2024-09-25 DOI:10.1016/j.bandl.2024.105474

Marta Puertollano , Teresa Ribas-Prats , Natàlia Gorina-Careta , Siham Ijjou-Kadiri , Sonia Arenillas-Alcón , Alejandro Mondéjar-Segovia , María Dolores Gómez-Roig , Carles Escera

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Abstract

Infants quickly recognize the sounds of their mother language, perceiving the spectrotemporal acoustic features of speech. However, the underlying neural machinery remains unclear. We used an auditory evoked potential termed frequency-following response (FFR) to unravel the neural encoding maturation for two speech sound characteristics: voice pitch and temporal fine structure. 37 healthy-term neonates were tested at birth and retested at the ages of six and twelve months. Results revealed a reduction in neural phase-locking onset to the stimulus envelope from birth to six months, stabilizing by twelve months. While neural encoding of voice pitch remained consistent across ages, temporal fine structure encoding matured rapidly from birth to six months, without further improvement from six to twelve months. Results highlight the critical importance of the first six months of life in the maturation of neural encoding mechanisms that are crucial for phoneme discrimination during early language acquisition.

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一岁内语言声音特征神经编码机制的纵向轨迹

婴儿能迅速识别母语的声音，感知语音的谱时声学特征。然而，其背后的神经机制仍不清楚。我们使用一种被称为频率跟随反应（FFR）的听觉诱发电位来揭示两种语音声音特征的神经编码成熟过程：语音音高和时间精细结构。37 名健康足月新生儿在出生时接受了测试，并在 6 个月和 12 个月大时接受了复测。结果显示，从出生到 6 个月期间，神经与刺激包络的锁相起始时间减少，到 12 个月时趋于稳定。虽然声调的神经编码在各年龄段保持一致，但时间精细结构编码从出生到六个月迅速成熟，从六个月到十二个月没有进一步改善。研究结果凸显了出生后头六个月对神经编码机制成熟的至关重要性，而神经编码机制对早期语言习得过程中的音素辨别至关重要。

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来源期刊

Brain and Language 医学-神经科学

CiteScore

4.50

自引率

8.00%

发文量

审稿时长

20.5 weeks

期刊介绍： An interdisciplinary journal, Brain and Language publishes articles that elucidate the complex relationships among language, brain, and behavior. The journal covers the large variety of modern techniques in cognitive neuroscience, including functional and structural brain imaging, electrophysiology, cellular and molecular neurobiology, genetics, lesion-based approaches, and computational modeling. All articles must relate to human language and be relevant to the understanding of its neurobiological and neurocognitive bases. Published articles in the journal are expected to have significant theoretical novelty and/or practical implications, and use perspectives and methods from psychology, linguistics, and neuroscience along with brain data and brain measures.