绘制自闭症和注意力缺陷多动障碍的大脑图谱揭示了不同且重叠的神经生物学特征。

Brain-charting autism and attention deficit hyperactivity disorder reveals distinct and overlapping neurobiology.

作者信息

Bedford Saashi A, Lai Meng-Chuan, Lombardo Michael V, Chakrabarti Bhismadev, Ruigrok Amber, Suckling John, Anagnostou Evdokia, Lerch Jason P, Taylor Margot, Nicolson Rob, Stelios Georgiades, Crosbie Jennifer, Schachar Russell, Kelley Elizabeth, Jones Jessica, Arnold Paul D, Courchesne Eric, Pierce Karen, Eyler Lisa T, Campbell Kathleen, Barnes Cynthia Carter, Seidlitz Jakob, Alexander-Bloch Aaron F, Bullmore Edward T, Baron-Cohen Simon, Bethlehem Richard A I

机构信息

Autism Research Centre, Department of Psychiatry, University of Cambridge, Cambridge, CB2 8AH, UK.

Brain Mapping Unit, Department of Psychiatry, University of Cambridge, Cambridge, CB2 0SZ, UK.

出版信息

medRxiv. 2023 Dec 7:2023.12.06.23299587. doi: 10.1101/2023.12.06.23299587.

DOI:10.1101/2023.12.06.23299587

PMID:38106166

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10723556/

Abstract

BACKGROUND

Autism and attention deficit hyperactivity disorder (ADHD) are heterogeneous neurodevelopmental conditions with complex underlying neurobiology. Despite overlapping presentation and sex-biased prevalence, autism and ADHD are rarely studied together, and sex differences are often overlooked. Normative modelling provides a unified framework for studying age-specific and sex-specific divergences in neurodivergent brain development.

METHODS

Here we use normative modelling and a large, multi-site neuroimaging dataset to characterise cortical anatomy associated with autism and ADHD, benchmarked against models of typical brain development based on a sample of over 75,000 individuals. We also examined sex and age differences, relationship with autistic traits, and explored the co-occurrence of autism and ADHD (autism+ADHD).

RESULTS

We observed robust neuroanatomical signatures of both autism and ADHD. Overall, autistic individuals showed greater cortical thickness and volume localised to the superior temporal cortex, whereas individuals with ADHD showed more global effects of cortical thickness increases but lower cortical volume and surface area across much of the cortex. The autism+ADHD group displayed a unique pattern of widespread increases in cortical thickness, and certain decreases in surface area. We also found evidence that sex modulates the neuroanatomy of autism but not ADHD, and an age-by-diagnosis interaction for ADHD only.

CONCLUSIONS

These results indicate distinct cortical differences in autism and ADHD that are differentially impacted by age, sex, and potentially unique patterns related to their co-occurrence.

摘要

背景

自闭症和注意力缺陷多动障碍（ADHD）是具有复杂潜在神经生物学机制的异质性神经发育疾病。尽管两者临床表现存在重叠且患病率存在性别差异，但自闭症和ADHD很少同时进行研究，性别差异也常常被忽视。规范建模为研究神经发育异常的大脑发育中特定年龄和性别的差异提供了一个统一的框架。

方法

在此，我们使用规范建模和一个大型多中心神经影像数据集来表征与自闭症和ADHD相关的皮质解剖结构，并以基于超过75000人的样本建立的典型大脑发育模型为基准。我们还研究了性别和年龄差异、与自闭症特征的关系，并探讨了自闭症和ADHD（自闭症+ADHD）的共病情况。

结果

我们观察到了自闭症和ADHD两者强大的神经解剖学特征。总体而言，自闭症个体在颞上叶皮质表现出更大的皮质厚度和体积，而ADHD个体则表现出更广泛的皮质厚度增加，但在大部分皮质中皮质体积和表面积较低。自闭症+ADHD组表现出一种独特的模式，即皮质厚度普遍增加，而表面积有一定程度的减少。我们还发现有证据表明性别会调节自闭症的神经解剖结构，但不会调节ADHD的神经解剖结构，并且仅ADHD存在诊断与年龄的交互作用。

结论

这些结果表明自闭症和ADHD存在明显的皮质差异，这些差异受到年龄、性别以及与其共病相关的潜在独特模式的不同影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/05ec/10723556/39541c02d0a7/nihpp-2023.12.06.23299587v1-f0001.jpg

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绘制自闭症和注意力缺陷多动障碍的大脑图谱揭示了不同且重叠的神经生物学特征。

Brain-charting autism and attention deficit hyperactivity disorder reveals distinct and overlapping neurobiology.

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