A large-scale ENIGMA multisite replication study of brain age in depression

Q4 Neuroscience Neuroimage. Reports Pub Date : 2022-12-01 DOI:10.1016/j.ynirp.2022.100149

Laura K.M. Han , Richard Dinga , Ramona Leenings , Tim Hahn , James H. Cole , Lyubomir I. Aftanas , Alyssa R. Amod , Bianca Besteher , Romain Colle , Emmanuelle Corruble , Baptiste Couvy-Duchesne , Konstantin V. Danilenko , Paola Fuentes-Claramonte , Ali Saffet Gonul , Ian H. Gotlib , Roberto Goya-Maldonado , Nynke A. Groenewold , Paul Hamilton , Naho Ichikawa , Jonathan C. Ipser , Lianne Schmaal

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Abstract

Background

Several studies have evaluated whether depressed persons have older appearing brains than their nondepressed peers. However, the estimated neuroimaging-derived “brain age gap” has varied from study to study, likely driven by differences in training and testing sample (size), age range, and used modality/features. To validate our previously developed ENIGMA brain age model and the identified brain age gap, we aim to replicate the presence and effect size estimate previously found in the largest study in depression to date (N = 2126 controls & N = 2675 cases; +1.08 years [SE 0.22], Cohen's d = 0.14, 95% CI: 0.08–0.20), in independent cohorts that were not part of the original study.

Methods

A previously trained brain age model (www.photon-ai.com/enigma_brainage) based on 77 FreeSurfer brain regions of interest was used to obtain unbiased brain age predictions in 751 controls and 766 persons with depression (18–75 years) from 13 new cohorts collected from 20 different scanners. Meta-regressions were used to examine potential moderating effects of basic cohort characteristics (e.g., clinical and scan technical) on the brain age gap.

Results

Our ENIGMA MDD brain age model generalized reasonably well to controls from the new cohorts (predicted age vs. age: r = 0.73, R² = 0.47, MAE = 7.50 years), although the performance varied from cohort to cohort. In these new cohorts, on average, depressed persons showed a significantly higher brain age gap of +1 year (SE 0.35) (Cohen's d = 0.15, 95% CI: 0.05–0.25) compared with controls, highly similar to our previous finding. Significant moderating effects of FreeSurfer version 6.0 (d = 0.41, p = 0.007) and Philips scanner vendor (d = 0.50, p < 0.0001) were found, leading to more positive effect size estimates.

Conclusions

This study further validates our previously developed ENIGMA brain age algorithm. Importantly, we replicated the brain age gap in depression with a comparable effect size. Thus, two large-scale independent mega-analyses across in total 32 cohorts and >3400 patients and >2800 controls worldwide show reliable but subtle effects of brain aging in adult depression. Future studies are needed to identify factors that may further explain the brain age gap variance between cohorts.

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抑郁症患者脑年龄的大规模ENIGMA多位点复制研究

一些研究已经评估了抑郁症患者是否比非抑郁症患者的大脑看起来更老。然而，估计的神经成像衍生的“脑年龄差距”因研究而异，可能是由于训练和测试样本(大小)、年龄范围和使用的模态/特征的差异。为了验证我们之前开发的ENIGMA脑年龄模型和确定的脑年龄差距，我们的目标是复制之前在迄今为止最大的抑郁症研究中发现的存在和效应大小估计(N = 2126对照&N = 2675例;+1.08年[SE 0.22]， Cohen’s d = 0.14, 95% CI: 0.08-0.20)，在不属于原始研究的独立队列中。方法采用基于77个FreeSurfer感兴趣的大脑区域的先前训练的脑年龄模型(www.photon-ai.com/enigma_brainage)，从20种不同扫描仪收集的13个新队列中获得751名对照和766名抑郁症患者(18-75岁)的无偏脑年龄预测。meta回归用于检验基本队列特征(如临床和扫描技术)对脑年龄差距的潜在调节作用。结果我们的ENIGMA MDD脑年龄模型可以很好地推广到新队列的对照组(预测年龄vs.年龄:r = 0.73, R2 = 0.47, MAE = 7.50岁)，尽管不同队列的表现不同。在这些新的队列中，平均而言，抑郁症患者的脑年龄差距明显高于对照组，为+1年(SE 0.35) (Cohen’s d = 0.15, 95% CI: 0.05-0.25)，与我们之前的发现非常相似。FreeSurfer 6.0版本(d = 0.41, p = 0.007)和Philips扫描仪供应商(d = 0.50, p <0.0001)，导致更积极的效应大小估计。结论本研究进一步验证了我们之前开发的ENIGMA脑年龄算法。重要的是，我们复制了抑郁症的大脑年龄差距，具有可比的效应大小。因此，两项大规模独立的大型分析共涉及32个队列和全球3400名患者和2800名对照，显示了成人抑郁症中大脑衰老的可靠但微妙的影响。未来的研究需要确定可能进一步解释队列之间大脑年龄差距差异的因素。

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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