Characterizing patterns of diffusion tensor imaging variance in aging brains.

medRxiv : the preprint server for health sciences Pub Date : 2024-09-04 DOI:10.1101/2023.08.22.23294381

Chenyu Gao, Qi Yang, Michael E Kim, Nazirah Mohd Khairi, Leon Y Cai, Nancy R Newlin, Praitayini Kanakaraj, Lucas W Remedios, Aravind R Krishnan, Xin Yu, Tianyuan Yao, Panpan Zhang, Kurt G Schilling, Daniel Moyer, Derek B Archer, Susan M Resnick, Bennett A Landman

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Abstract

Purpose: As large analyses merge data across sites, a deeper understanding of variance in statistical assessment across the sources of data becomes critical for valid analyses. Diffusion tensor imaging (DTI) exhibits spatially varying and correlated noise, so care must be taken with distributional assumptions. Here we characterize the role of physiology, subject compliance, and the interaction of subject with the scanner in the understanding of DTI variability, as modeled in spatial variance of derived metrics in homogeneous regions.

Approach: We analyze DTI data from 1035 subjects in the Baltimore Longitudinal Study of Aging (BLSA), with ages ranging from 22.4 to 103 years old. For each subject, up to 12 longitudinal sessions were conducted. We assess variance of DTI scalars within regions of interest (ROIs) defined by four segmentation methods and investigate the relationships between the variance and covariates, including baseline age, time from the baseline (referred to as "interval"), motion, sex, and whether it is the first scan or the second scan in the session.

Results: Covariate effects are heterogeneous and bilaterally symmetric across ROIs. Inter-session interval is positively related ( $p ≪ 0.001$ ) to FA variance in the cuneus and occipital gyrus, but negatively ( $p ≪ 0.001$ ) in the caudate nucleus. Males show significantly ( $p ≪ 0.001$ ) higher FA variance in the right putamen, thalamus, body of the corpus callosum, and cingulate gyrus. In 62 out of 176 ROIs defined by the Eve type-1 atlas, an increase in motion is associated ( $p < 0.05$ ) with a decrease in FA variance. Head motion increases during the rescan of DTI ( $Δ μ = 0.045$ millimeters per volume).

Conclusions: The effects of each covariate on DTI variance, and their relationships across ROIs are complex. Ultimately, we encourage researchers to include estimates of variance when sharing data and consider models of heteroscedasticity in analysis. This work provides a foundation for study planning to account for regional variations in metric variance.

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衰老大脑DTI变异模式的表征。

目的：随着大型分析合并各个站点的数据，深入了解数据来源的统计评估差异对于有效分析至关重要。扩散张量成像（DTI）表现出空间变化和相关的噪声，因此必须注意分布假设。在这里，我们描述了生理学、受试者依从性以及受试者与扫描仪的相互作用在理解方差中的作用。方法：我们分析了巴尔的摩老龄化纵向研究（BLSA）中1035名受试者的DTI数据，年龄从22.4岁到103岁不等。对于每个受试者，最多进行12次纵向治疗。在每个会话中，对DTI进行扫描和重新扫描。我们评估了由四种分割方法定义的感兴趣区域（ROI）内DTI标量的方差，并研究了方差与协变量之间的关系，包括基线年龄、距基线的时间（称为“间隔”）、运动、性别和扫描-重新扫描对。结果：在ROI中，协变量效应是异质的且双侧对称的。楔状回和枕回的FA变化与间期呈正相关，而尾状核的FA变化则与间期呈负相关。雄性在右侧壳核、丘脑、胼胝体体和扣带回表现出较高的FA变异。在某些ROI中，运动的增加与FA方差的减少有关。在DTI的重新扫描过程中，头部运动增加。结论：每个协变量对DTI方差的影响及其在ROI之间的关系是复杂的。最终，我们鼓励研究人员在共享数据时包括方差估计，并在分析中考虑异方差模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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medRxiv : the preprint server for health sciences

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