U-net based analysis of MRI for Alzheimer’s disease diagnosis

Z. Fan; J. Li; L. Zhang; G. Zhu; P. Li; X. Lu; P. Shen; S.A.A. Shah; M. Bennamoun; T. Hua; W. Wei

doi:10.1007/s00521-021-05983-y

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U-net based analysis of MRI for Alzheimer’s disease diagnosis

Journal article

Peer reviewed

U-net based analysis of MRI for Alzheimer’s disease diagnosis

Z. Fan, J. Li, L. Zhang, G. Zhu, P. Li, X. Lu, P. Shen, S.A.A. Shah, M. Bennamoun, T. Hua, …

Neural Computing and Applications

2021

DOI: https://doi.org/10.1007/s00521-021-05983-y

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Abstract

Alzheimer’s disease (AD) is the most common type of dementia that still has no effective treatment. Accurate classification of AD can help in its diagnosis and selection of the most effective treatment options. In the last decade, several studies have proven the effectiveness of deep learning algorithms for AD diagnosis. In this paper, we propose a U-net style model for AD diagnosis using 3D T1-weighted magnetic resonance images (MRI). Combining with deep supervision has been proved to be effective in improving the performance of the model. Our method has been tested on a subset of ADNI dataset and AIBL dataset and achieves a superior average accuracy of 95.71±1.36% for AD versus NC (normal control), 90.14±3.66% for EMCI (early mild cognitive impairment) versus LMCI (late mild cognitive impairment), 90.05±2.63% for AD versus LMCI, and 87.98±4.54% for NC versus EMCI, respectively. Besides these binary-classification tasks, we also test this model for multi-class classification task (AD vs. NC vs. EMCI vs. LMCI) and it achieves an accuracy of 86.47±9.60%. Furthermore, 3D-Grad-CAM method is used to visualize the focused areas of the proposed model. We find that the proposed model pays more attention to the characteristics of the ventricles, hippocampus, and some regions of cortex, which have been proven to be affected by AD.

Details

Title: U-net based analysis of MRI for Alzheimer’s disease diagnosis
Authors/Creators: Z. Fan (Author/Creator)
J. Li (Author/Creator)
L. Zhang (Author/Creator)
G. Zhu (Author/Creator)
P. Li (Author/Creator)
X. Lu (Author/Creator)
P. Shen (Author/Creator)
S.A.A. Shah (Author/Creator)
M. Bennamoun (Author/Creator)
T. Hua (Author/Creator)
W. Wei (Author/Creator)
Publication Details: Neural Computing and Applications
Publisher: Springer London
Identifiers: 991005543057607891
Copyright: © 2021 Springer Nature Switzerland AG
Murdoch Affiliation: Information Technology, Mathematics and Statistics
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 1 Clinical & Life Sciences; 1.52 Neurodegenerative Diseases; 1.52.60 Dementia
Web Of Science research areas: Computer Science, Artificial Intelligence
ESI research areas: Engineering