Ansatte – Københavns Universitet

Robust training of recurrent neural networks to handle missing data for disease progression modeling

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Mostafa Mehdipour Ghazi, Mads Nielsen, Akshay Sadananda Uppinakudru Pai, Manuel Jorge Cardoso, Marc Modat, Sebastien Ourselin, Lauge Sørensen

Disease progression modeling (DPM) using longitudinal data is a challenging task in machine learning for healthcare that can provide clinicians with better tools for diagnosis and monitoring of disease. Existing DPM algorithms neglect temporal dependencies among measurements and make parametric assumptions about biomarker trajectories. In addition, they do not model multiple biomarkers jointly and need to align subjects' trajectories. In this paper, recurrent neural networks (RNNs) are utilized to address these issues. However, in many cases, longitudinal cohorts contain incomplete data, which hinders the application of standard RNNs and requires a pre-processing step such as imputation of the missing values. We, therefore, propose a generalized training rule for the most widely used RNN architecture, long short-term memory (LSTM) networks, that can handle missing values in both target and predictor variables. This algorithm is applied for modeling the progression of Alzheimer's disease (AD) using magnetic resonance imaging (MRI) biomarkers. The results show that the proposed LSTM algorithm achieves a lower mean absolute error for prediction of measurements across all considered MRI biomarkers compared to using standard LSTM networks with data imputation or using a regression-based DPM method. Moreover, applying linear discriminant analysis to the biomarkers' values predicted by the proposed algorithm results in a larger area under the receiver operating characteristic curve (AUC) for clinical diagnosis of AD compared to the same alternatives, and the AUC is comparable to state-of-the-art AUC's from a recent cross-sectional medical image classification challenge. This paper shows that built-in handling of missing values in LSTM network training paves the way for application of RNNs in disease progression modeling.
OriginalsprogEngelsk
Publikationsdato2018
Antal sider9
StatusUdgivet - 2018
Begivenhed1st Conference on Medical Imaging with Deep Learning (MIDL 2018) - Amsterdam, Holland
Varighed: 4 jul. 20186 jul. 2018

Konference

Konference1st Conference on Medical Imaging with Deep Learning (MIDL 2018)
LandHolland
ByAmsterdam
Periode04/07/201806/07/2018

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