Department of Brain and Cognitive Engineering, Korea University, Seoul 02841, Republic of Korea.
Department of Artificial Intelligence, Korea University, Seoul 02841, Republic of Korea.
Neuroimage. 2023 Jun;273:120073. doi: 10.1016/j.neuroimage.2023.120073. Epub 2023 Apr 8.
Identifying Alzheimer's disease (AD) involves a deliberate diagnostic process owing to its innate traits of irreversibility with subtle and gradual progression. These characteristics make AD biomarker identification from structural brain imaging (e.g., structural MRI) scans quite challenging. Using clinically-guided prototype learning, we propose a novel deep-learning approach through eXplainable AD Likelihood Map Estimation (XADLiME) for AD progression modeling over 3D sMRIs. Specifically, we establish a set of topologically-aware prototypes onto the clusters of latent clinical features, uncovering an AD spectrum manifold. Considering this pseudo map as an enriched reference, we employ an estimating network to approximate the AD likelihood map over a 3D sMRI scan. Additionally, we promote the explainability of such a likelihood map by revealing a comprehensible overview from clinical and morphological perspectives. During the inference, this estimated likelihood map served as a substitute for unseen sMRI scans for effectively conducting the downstream task while providing thorough explainable states.
识别阿尔茨海默病(AD)需要一个深思熟虑的诊断过程,因为它具有不可逆转的固有特征,且其进展是微妙和渐进的。这些特征使得从结构脑成像(例如结构 MRI)扫描中识别 AD 生物标志物变得极具挑战性。通过使用临床指导的原型学习,我们提出了一种新的深度学习方法,即可解释的 AD 可能性映射估计(XADLiME),用于对 3D sMRI 上的 AD 进展进行建模。具体来说,我们在潜在临床特征的聚类上建立了一组拓扑感知原型,揭示了 AD 谱流形。考虑到这个伪映射作为一个丰富的参考,我们使用一个估计网络来估计 3D sMRI 扫描上的 AD 可能性映射。此外,我们通过从临床和形态学的角度揭示一个易于理解的概览,来促进这种可能性映射的可解释性。在推理过程中,这个估计的可能性映射可以作为未见过的 sMRI 扫描的替代品,在有效执行下游任务的同时提供全面的可解释状态。
