The Neural Bases of Language Processing During Social and Non-Social Contexts: A fNIRS Study of Autistic and Neurotypical Preschool-Aged Children.

Meredith Pecukonis, Javier Gerson, Hailey Gustafson-Alm, Maegan Wood, Meryem Yücel, David Boas, Helen Tager-Flusberg
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Abstract

Background: Little is known about how the brains of autistic children process language during real-world "social contexts," despite the fact that challenges with language, communication, and social interaction are core features of Autism Spectrum Disorder (ASD).

Methods: We investigated the neural bases of language processing during social and non-social contexts in a sample of N=20 autistic and N=20 neurotypical (NT) preschool-aged children, 3 to 6 years old. Functional near-infrared spectroscopy (fNIRS) was used to measure children's brain response to "live language" spoken by a live experimenter during an in-person social context (i.e., book reading), and "recorded language" played via an audio recording during a non-social context (i.e., screen time). We examined within-group and between-group differences in the strength and localization of brain response to live language and recorded language, as well as correlations between children's brain response and language skills measured by the Preschool Language Scales.

Results: In the NT group, brain response to live language was greater than brain response to recorded language in the right temporal parietal junction (TPJ). In the ASD group, the strength of brain response did not differ between conditions. The ASD group showed greater brain response to recorded language than the NT group in the right inferior and middle frontal gyrus (IMFG). Across groups, children's language skills were negatively associated with brain response to recorded language in the right IMFG, suggesting that processing recorded language required more cognitive effort for children with lower language skills. Children's language skills were also positively associated with the difference in brain response between conditions in the right TPJ, demonstrating that children who showed a greater difference in brain response to live language versus recorded language had higher language skills.

Limitations: Findings should be considered preliminary until they are replicated in a larger sample.

Conclusions: Findings suggest that the brains of NT children, but not autistic children, process language differently during social and non-social contexts. Individual differences in how the brain processes language during social and non-social contexts may help to explain why language skills are so variable across children with and without autism.

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社交和非社交语境中语言处理的神经基础:自闭症和神经畸形学龄前儿童的 fNIRS 研究。
背景:尽管语言、沟通和社会交往方面的挑战是自闭症谱系障碍(ASD)的核心特征,但人们对自闭症儿童的大脑在真实世界的 "社会环境 "中如何处理语言却知之甚少。研究方法我们对 N = 20 名自闭症儿童和 N = 20 名神经典型(NT)学龄前儿童(3 至 6 岁)在社交和非社交环境中语言处理的神经基础进行了调查。我们使用功能性近红外光谱(fNIRS)测量了儿童在亲身社交情境(即阅读书籍)中对现场实验者所说的 "现场语言 "以及在非社交情境(即屏幕时间)中通过录音播放的 "录制语言 "的大脑反应。我们研究了大脑对现场语言和录制语言的反应强度和定位的组内和组间差异,以及儿童大脑反应与学前语言量表测量的语言技能之间的相关性。结果显示在 NT 组中,右侧颞顶叶交界处(TPJ)对现场语言的大脑反应强于对录制语言的大脑反应。在 ASD 组中,大脑反应的强度在不同条件下没有差异。在右侧额叶下回和中回(IMFG),ASD 组对录制语言的大脑反应强于 NT 组。在各组中,儿童的语言技能与大脑对右侧 IMFG 中录制的语言的反应呈负相关,这表明语言技能较低的儿童在处理录制的语言时需要付出更多的认知努力。儿童的语言技能还与右侧 TPJ 在不同条件下的大脑反应差异呈正相关,这表明对现场语言与录制语言的大脑反应差异更大的儿童具有更高的语言技能。局限性:在更大样本中重复研究之前,研究结果应被视为初步结果。结论:研究结果表明,NT 儿童(而非自闭症儿童)的大脑在社交和非社交环境中处理语言的方式不同。大脑在社交和非社交语境中处理语言的方式存在个体差异,这可能有助于解释为什么自闭症儿童和非自闭症儿童的语言技能如此不同。
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