Association between cognitive status and structural brain changes in Alzheimer's disease: Clinical implication of lightweight deep learning-aided diagnosis.
Journal
European Journal of Radiology
Journal Volume
196
Start Page
Article Number : 112678
ISSN
1872-7727
Date Issued
2026-03
Author(s)
Abstract
Background The complex brain changes involved in Alzheimer’s disease (AD) development constitute a high-dimensional nonlinear feature space where deep learning (DL) classification/diagnosis may be advantageous over classical non-learning methods. However, the practicality of DL remains under debate among healthcare professionals, largely because many models are computationally expensive and operate without explicit interpretability. This study aimed to construct a lightweight DL model to disclose the association between cognitive status and structural brain changes in AD. Methods By using the data obtained from the Alzheimer’s Disease Neuroimaging Initiative database, 418 AD patients and 418 age-matched cognitively normal (CN) subjects were included for DL model construction based on their T1-weighted magnetic resonance images at baseline visit. A lightweight design was achieved by incorporating group convolution, global pooling, and efficient channel attention. Results The accuracy rate of our model was 90.6 %, competitive with previous models built with up-to-ten times more parameters. The occlusion maps showed that the medial temporal area and thalamus accounted the most for our model’s differentiation between AD and CN, in line with current knowledge of the pathological trajectory. Hierarchical regression further revealed that the logit of the DL model output explained a significant amount of variance in the mini mental state examination score, above and beyond the clinical indices including age, sex, and education duration (R 2 change = 0.341, F (1, 91) = 57.623, p ' 0.001). Conclusions Lightweight DL can be clinically practicable for AD diagnosis by focusing on pathologically interpretable structural changes and offering image-based assessment of cognitive status.
Subjects
Alzheimer’s disease
Deep learning
Dementia
Magnetic resonance imaging
Publisher
Elsevier Ireland Ltd
Type
journal article