人类新生儿大脑对发声和听觉控制的反应。

Responses to vocalizations and auditory controls in the human newborn brain.

作者信息

Cristia Alejandrina, Minagawa Yasuyo, Dupoux Emmanuel

机构信息

Laboratoire de Sciences Cognitives et Psycholinguistique (ENS, EHESS, CNRS), Département d'Etudes Cognitives, Ecole Normale Supérieure, PSL Research University, Paris, France.

Department of Psychology, Faculty of Letters, Keio University, Tokyo, Japan.

出版信息

PLoS One. 2014 Dec 17;9(12):e115162. doi: 10.1371/journal.pone.0115162. eCollection 2014.

DOI:10.1371/journal.pone.0115162

PMID:25517997

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4269432/

Abstract

In the adult brain, speech can recruit a brain network that is overlapping with, but not identical to, that involved in perceiving non-linguistic vocalizations. Using the same stimuli that had been presented to human 4-month-olds and adults, as well as adult macaques, we sought to shed light on the cortical networks engaged when human newborns process diverse vocalization types. Near infrared spectroscopy was used to register the response of 40 newborns' perisylvian regions when stimulated with speech, human and macaque emotional vocalizations, as well as auditory controls where the formant structure was destroyed but the long-term spectrum was retained. Left fronto-temporal and parietal regions were significantly activated in the comparison of stimulation versus rest, with unclear selectivity in cortical activation. These results for the newborn brain are qualitatively and quantitatively compared with previous work on newborns, older human infants, adult humans, and adult macaques reported in previous work.

摘要

在成人大脑中，言语能够激活一个与感知非语言发声所涉及的脑网络部分重叠但并不完全相同的脑网络。我们使用曾呈现给4个月大的人类婴儿、成年人以及成年猕猴的相同刺激，试图阐明人类新生儿处理不同发声类型时所涉及的皮质网络。利用近红外光谱技术记录了40名新生儿在受到言语、人类和猕猴情感发声以及听觉对照（其中共振峰结构被破坏但长期频谱得以保留）刺激时其颞周区域的反应。在刺激与静息状态的比较中，左额颞叶和顶叶区域被显著激活，皮质激活的选择性不明确。将新生儿大脑的这些结果与先前关于新生儿、大龄人类婴儿、成年人以及成年猕猴的研究工作在定性和定量方面进行了比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/40b4/4269432/96e1b2558ac4/pone.0115162.g001.jpg

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人类新生儿大脑对发声和听觉控制的反应。

Responses to vocalizations and auditory controls in the human newborn brain.

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