Imaging Science Thesis Defense: Robust Multimodal Fusion for Oncology

Imaging Science MS Defense
Robust Multimodal Fusion for Oncology

Dominic Flack
Imaging Science MS Candidate
Rochester Institute of Technology
                                               
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Abstract:
Multimodal deep learning models have the potential to significantly improve survival predictions and treatment planning for cancer patients. These models integrate diverse data modalities using early, intermediate, or late fusion techniques. However, many existing multimodal models either underperform or show only marginal improvements over unimodal models. To establish the true efficacy of multimodal survival prediction models, it is critical to demonstrate consistent and substantial advantages over unimodal counterparts. In this thesis, we introduce the Robust Multimodal Survival Model (RMSurv), a novel discrete late fusion model that leverages synthetic data generation to compute time-dependent weights for various modalities. RMSurv utilizes up to 6 distinct data modalities from The Cancer Genome Atlas Program (TCGA) non-small cell lung cancer and the TCGA pan-cancer datasets. In our experiments, RMSurv outperforms the best unimodal model's Concordance index (C-Index) by 0.0273 on the 6-modal TCGA Lung Adenocarcinoma (LUAD) dataset. Existing late and early fusion methods improved the C-index by only 0.0143 and 0.0072, respectively. RMSurv also performs best on the combined TCGA non-small-cell lung cancer dataset and the TCGA pan-cancer dataset. The key innovations of RMSurv include the calculation of time-dependent late fusion weights using a synthetically generated dataset and a new statistical feature normalization technique to enhance the interpretability and accuracy of discrete survival predictions. These advancements underscore RMSurv's potential as a powerful approach for survival prediction, establishing robust multimodal benefits and setting a new benchmark for survival prediction models in pan-cancer settings.

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