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迈向多模态神经影像学深度学习模型的可解释性:寻找大脑老化的结构变化。

Towards the interpretability of deep learning models for multi-modal neuroimaging: Finding structural changes of the ageing brain.

机构信息

Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, 04103 Leipzig, Germany; Department of Artificial Intelligence, Fraunhofer Institute Heinrich Hertz, 10587 Berlin, Germany; Clinic for Cognitive Neurology, University of Leipzig Medical Center, 04103 Leipzig, Germany.

Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, 04103 Leipzig, Germany; Clinic for Cognitive Neurology, University of Leipzig Medical Center, 04103 Leipzig, Germany.

出版信息

Neuroimage. 2022 Nov 1;261:119504. doi: 10.1016/j.neuroimage.2022.119504. Epub 2022 Jul 23.

DOI:10.1016/j.neuroimage.2022.119504
PMID:35882272
Abstract

Brain-age (BA) estimates based on deep learning are increasingly used as neuroimaging biomarker for brain health; however, the underlying neural features have remained unclear. We combined ensembles of convolutional neural networks with Layer-wise Relevance Propagation (LRP) to detect which brain features contribute to BA. Trained on magnetic resonance imaging (MRI) data of a population-based study (n = 2637, 18-82 years), our models estimated age accurately based on single and multiple modalities, regionally restricted and whole-brain images (mean absolute errors 3.37-3.86 years). We find that BA estimates capture ageing at both small and large-scale changes, revealing gross enlargements of ventricles and subarachnoid spaces, as well as white matter lesions, and atrophies that appear throughout the brain. Divergence from expected ageing reflected cardiovascular risk factors and accelerated ageing was more pronounced in the frontal lobe. Applying LRP, our study demonstrates how superior deep learning models detect brain-ageing in healthy and at-risk individuals throughout adulthood.

摘要

基于深度学习的大脑年龄(BA)估计值越来越多地被用作脑健康的神经影像学生物标志物;然而,其潜在的神经特征仍不清楚。我们结合了卷积神经网络和层间相关性传播(LRP)的集合,以检测哪些大脑特征有助于 BA 的估计。我们的模型在基于人群的研究(n=2637,18-82 岁)的磁共振成像(MRI)数据上进行了训练,可以基于单模态和多模态、局部受限和全脑图像准确地估计年龄(平均绝对误差为 3.37-3.86 岁)。我们发现 BA 估计值可以捕捉到从小规模到大规模的变化,揭示脑室和蛛网膜下腔的明显扩大,以及脑白质病变和萎缩,这些病变出现在大脑的各个部位。与预期的衰老模式的差异反映了心血管危险因素,并且额叶的衰老速度更快。应用 LRP,我们的研究表明,优秀的深度学习模型如何在整个成年期检测健康和处于风险中的个体的大脑衰老。

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