Deakin University
Browse

File(s) not publicly available

Joint classification and regression via deep multi-task multi-channel learning for Alzheimer's disease diagnosis

journal contribution
posted on 2022-09-30, 01:58 authored by M Liu, Jun ZhangJun Zhang, E Adeli, D Shen
In the field of computer-aided Alzheimer's disease (AD) diagnosis, jointly identifying brain diseases and predicting clinical scores using magnetic resonance imaging (MRI) have attracted increasing attention since these two tasks are highly correlated. Most of existing joint learning approaches require hand-crafted feature representations for MR images. Since hand-crafted features of MRI and classification/regression models may not coordinate well with each other, conventional methods may lead to sub-optimal learning performance. Also, demographic information (e.g., age, gender, and education) of subjects may also be related to brain status, and thus can help improve the diagnostic performance. However, conventional joint learning methods seldom incorporate such demographic information into the learning models. To this end, we propose a deep multi-task multi-channel learning (DM2L) framework for simultaneous brain disease classification and clinical score regression, using MRI data and demographic information of subjects. Specifically, we first identify the discriminative anatomical landmarks from MR images in a data-driven manner, and then extract multiple image patches around these detected landmarks. We then propose a deep multi-task multi-channel convolutional neural network for joint classification and regression. Our DM2L framework can not only automatically learn discriminative features for MR images, but also explicitly incorporate the demographic information of subjects into the learning process. We evaluate the proposed method on four large multi-center cohorts with 1984 subjects, and the experimental results demonstrate that DM2L is superior to several state-of-the-art joint learning methods in both the tasks of disease classification and clinical score regression.

History

Journal

IEEE Transactions on Biomedical Engineering

Volume

66

Issue

5

Pagination

1195 - 1206

ISSN

0018-9294

eISSN

1558-2531