孤独症谱系障碍儿童的触觉皮质反应与触觉反应的相关性。

Tactile cortical responses and association with tactile reactivity in young children on the autism spectrum.

机构信息

Department of Radiology, Cumming School of Medicine, University of Calgary, 2500 University Drive NW, Calgary, AB, T2N 4N1, Canada.

Child and Adolescent Imaging Research (CAIR) Program, University of Calgary, Calgary, AB, Canada.

出版信息

Mol Autism. 2021 Apr 1;12(1):26. doi: 10.1186/s13229-021-00435-9.

DOI:10.1186/s13229-021-00435-9

PMID:33794998

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8017878/

Abstract

BACKGROUND

Unusual behavioral reactions to sensory stimuli are frequently reported in individuals on the autism spectrum (AS). Despite the early emergence of sensory features (< age 3) and their potential impact on development and quality of life, little is known about the neural mechanisms underlying sensory reactivity in early childhood autism.

METHODS

Here, we used electroencephalography (EEG) to investigate tactile cortical processing in young children aged 3-6 years with autism and in neurotypical (NT) children. Scalp EEG was recorded from 33 children with autism, including those with low cognitive and/or verbal abilities, and 45 age- and sex-matched NT children during passive tactile fingertip stimulation. We compared properties of early and later somatosensory-evoked potentials (SEPs) and their adaptation with repetitive stimulation between autistic and NT children and assessed whether these neural measures are linked to "real-world" parent-reported tactile reactivity.

RESULTS

As expected, we found elevated tactile reactivity in children on the autism spectrum. Our findings indicated no differences in amplitude or latency of early and mid-latency somatosensory-evoked potentials (P50, N80, P100), nor adaptation between autistic and NT children. However, latency of later processing of tactile information (N140) was shorter in young children with autism compared to NT children, suggesting faster processing speed in young autistic children. Further, correlational analyses and exploratory analyses using tactile reactivity as a grouping variable found that enhanced early neural responses were associated with greater tactile reactivity in autism.

LIMITATIONS

The relatively small sample size and the inclusion of a broad range of autistic children (e.g., with low cognitive and/or verbal abilities) may have limited our power to detect subtle group differences and associations. Hence, replications are needed to verify these results.

CONCLUSIONS

Our findings suggest that electrophysiological somatosensory cortex processing measures may be indices of "real-world" tactile reactivity in early childhood autism. Together, these findings advance our understanding of the neurophysiological mechanisms underlying tactile reactivity in early childhood autism and, in the clinical context, may have therapeutic implications.

摘要

背景

在自闭症谱系（AS）个体中，经常会报告对感觉刺激的异常行为反应。尽管感觉特征（<3 岁）很早就出现了，并且它们可能对发展和生活质量有影响，但对于自闭症儿童早期的感觉反应的神经机制知之甚少。

方法

在这里，我们使用脑电图（EEG）研究了 3-6 岁自闭症儿童和神经典型（NT）儿童的触觉皮层处理。我们记录了 33 名自闭症儿童（包括认知和/或语言能力较低的儿童）和 45 名年龄和性别匹配的 NT 儿童的头皮 EEG，这些儿童在被动指尖触觉刺激期间接受记录。我们比较了自闭症儿童和 NT 儿童早期和晚期体感诱发电位（SEP）的特性及其在重复刺激下的适应性，并评估了这些神经测量值是否与“真实世界”中父母报告的触觉反应相关。

结果

正如预期的那样，我们发现自闭症谱系儿童的触觉反应升高。我们的研究结果表明，自闭症儿童和 NT 儿童之间早期和中潜伏期体感诱发电位（P50、N80、P100）的振幅或潜伏期没有差异，适应性也没有差异。然而，与 NT 儿童相比，自闭症儿童的触觉信息后期处理的潜伏期（N140）更短，这表明自闭症儿童的处理速度更快。此外，使用触觉反应作为分组变量的相关性分析和探索性分析表明，增强的早期神经反应与自闭症中更大的触觉反应相关。

局限性

相对较小的样本量以及包括广泛的自闭症儿童（例如认知和/或语言能力较低的儿童）可能限制了我们检测细微组间差异和关联的能力。因此，需要重复实验来验证这些结果。

结论

我们的研究结果表明，电生理体感皮层处理测量可能是自闭症儿童早期“真实世界”触觉反应的指标。这些发现共同推进了我们对自闭症儿童早期触觉反应的神经生理机制的理解，并且在临床环境中，可能具有治疗意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/255f/8017878/3d660b653918/13229_2021_435_Fig1_HTML.jpg

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孤独症谱系障碍儿童的触觉皮质反应与触觉反应的相关性。

Tactile cortical responses and association with tactile reactivity in young children on the autism spectrum.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

LIMITATIONS

CONCLUSIONS

背景

方法

结果

局限性

结论

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