Détail du document
Identifiant

oai:arXiv.org:2407.02418

Sujet
Electrical Engineering and Systems... Computer Science - Computer Vision... 41A05 41A10 65D05 65D17
Auteur
Lozupone, Gabriele Bria, Alessandro Fontanella, Francesco Meijer, Frederick J. A. De Stefano, Claudio
Catégorie

Computer Science

Année

2024

Date de référencement

09/10/2024

Mots clés
alzheimer disease ad 0 mri
Métrique

Résumé

This study presents an innovative method for Alzheimer's disease diagnosis using 3D MRI designed to enhance the explainability of model decisions.

Our approach adopts a soft attention mechanism, enabling 2D CNNs to extract volumetric representations.

At the same time, the importance of each slice in decision-making is learned, allowing the generation of a voxel-level attention map to produce an explainable MRI.

To test our method and ensure the reproducibility of our results, we chose a standardized collection of MRI data from the Alzheimer's Disease Neuroimaging Initiative (ADNI).

On this dataset, our method significantly outperforms state-of-the-art methods in (i) distinguishing AD from cognitive normal (CN) with an accuracy of 0.856 and Matthew's correlation coefficient (MCC) of 0.712, representing improvements of 2.4% and 5.3% respectively over the second-best, and (ii) in the prognostic task of discerning stable from progressive mild cognitive impairment (MCI) with an accuracy of 0.725 and MCC of 0.443, showing improvements of 10.2% and 20.5% respectively over the second-best.

We achieved this prognostic result by adopting a double transfer learning strategy, which enhanced sensitivity to morphological changes and facilitated early-stage AD detection.

With voxel-level precision, our method identified which specific areas are being paid attention to, identifying these predominant brain regions: the hippocampus, the amygdala, the parahippocampal, and the inferior lateral ventricles.

All these areas are clinically associated with AD development.

Furthermore, our approach consistently found the same AD-related areas across different cross-validation folds, proving its robustness and precision in highlighting areas that align closely with known pathological markers of the disease.

;Comment: 21 pages, 9 figures, 9 tables

Lozupone, Gabriele,Bria, Alessandro,Fontanella, Francesco,Meijer, Frederick J. A.,De Stefano, Claudio, 2024, AXIAL: Attention-based eXplainability for Interpretable Alzheimer's Localized Diagnosis using 2D CNNs on 3D MRI brain scans

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