Autism Research Centre, Bloorview Research Institute, Holland Bloorview Kids Rehabilitation Hospital, Toronto, Ontario, Canada.
Institute of Biomedical Engineering, University of Toronto, Toronto, Canada.
Hum Brain Mapp. 2024 Sep;45(13):e26815. doi: 10.1002/hbm.26815.
With brain structure and function undergoing complex changes throughout childhood and adolescence, age is a critical consideration in neuroimaging studies, particularly for those of individuals with neurodevelopmental conditions. However, despite the increasing use of large, consortium-based datasets to examine brain structure and function in neurotypical and neurodivergent populations, it is unclear whether age-related changes are consistent between datasets and whether inconsistencies related to differences in sample characteristics, such as demographics and phenotypic features, exist. To address this, we built models of age-related changes of brain structure (regional cortical thickness and regional surface area; N = 1218) and function (resting-state functional connectivity strength; N = 1254) in two neurodiverse datasets: the Province of Ontario Neurodevelopmental Network and the Healthy Brain Network. We examined whether deviations from these models differed between the datasets, and explored whether these deviations were associated with demographic and clinical variables. We found significant differences between the two datasets for measures of cortical surface area and functional connectivity strength throughout the brain. For regional measures of cortical surface area, the patterns of differences were associated with race/ethnicity, while for functional connectivity strength, positive associations were observed with head motion. Our findings highlight that patterns of age-related changes in the brain may be influenced by demographic and phenotypic characteristics, and thus future studies should consider these when examining or controlling for age effects in analyses.
随着儿童和青少年的大脑结构和功能发生复杂变化,年龄是神经影像学研究中的一个关键考虑因素,特别是对于那些患有神经发育状况的个体。然而,尽管越来越多地使用大型、基于联合会的数据集来研究神经典型和神经多样性人群的大脑结构和功能,但尚不清楚年龄相关的变化是否在不同的数据集之间是一致的,以及是否存在与样本特征(如人口统计学和表型特征)差异相关的不一致性。为了解决这个问题,我们构建了两个神经多样性数据集(安大略省神经发育网络和健康大脑网络)中大脑结构(区域皮质厚度和区域表面积;N=1218)和功能(静息态功能连接强度;N=1254)的年龄相关变化模型。我们检查了这些模型在两个数据集中的偏差是否存在差异,并探讨了这些偏差是否与人口统计学和临床变量有关。我们发现,这两个数据集在整个大脑的皮质表面积和功能连接强度的测量上存在显著差异。对于区域皮质表面积的测量,差异模式与种族/民族有关,而对于功能连接强度,与头部运动呈正相关。我们的研究结果强调,大脑的年龄相关变化模式可能受到人口统计学和表型特征的影响,因此,未来的研究在进行分析时应该考虑这些因素,以检查或控制年龄效应。
