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Main Authors: van de Beld, Jorn-Jan, Pathak, Shreyasi, Geerdink, Jeroen, Hegeman, Johannes H., Seifert, Christin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2404.18631
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_version_ 1866913333769142272
author van de Beld, Jorn-Jan
Pathak, Shreyasi
Geerdink, Jeroen
Hegeman, Johannes H.
Seifert, Christin
author_facet van de Beld, Jorn-Jan
Pathak, Shreyasi
Geerdink, Jeroen
Hegeman, Johannes H.
Seifert, Christin
contents Surgery to treat elderly hip fracture patients may cause complications that can lead to early mortality. An early warning system for complications could provoke clinicians to monitor high-risk patients more carefully and address potential complications early, or inform the patient. In this work, we develop a multimodal deep-learning model for post-operative mortality prediction using pre-operative and per-operative data from elderly hip fracture patients. Specifically, we include static patient data, hip and chest images before surgery in pre-operative data, vital signals, and medications administered during surgery in per-operative data. We extract features from image modalities using ResNet and from vital signals using LSTM. Explainable model outcomes are essential for clinical applicability, therefore we compute Shapley values to explain the predictions of our multimodal black box model. We find that i) Shapley values can be used to estimate the relative contribution of each modality both locally and globally, and ii) a modified version of the chain rule can be used to propagate Shapley values through a sequence of models supporting interpretable local explanations. Our findings imply that a multimodal combination of black box models can be explained by propagating Shapley values through the model sequence.
format Preprint
id arxiv_https___arxiv_org_abs_2404_18631
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Feature importance to explain multimodal prediction models. A clinical use case
van de Beld, Jorn-Jan
Pathak, Shreyasi
Geerdink, Jeroen
Hegeman, Johannes H.
Seifert, Christin
Machine Learning
Surgery to treat elderly hip fracture patients may cause complications that can lead to early mortality. An early warning system for complications could provoke clinicians to monitor high-risk patients more carefully and address potential complications early, or inform the patient. In this work, we develop a multimodal deep-learning model for post-operative mortality prediction using pre-operative and per-operative data from elderly hip fracture patients. Specifically, we include static patient data, hip and chest images before surgery in pre-operative data, vital signals, and medications administered during surgery in per-operative data. We extract features from image modalities using ResNet and from vital signals using LSTM. Explainable model outcomes are essential for clinical applicability, therefore we compute Shapley values to explain the predictions of our multimodal black box model. We find that i) Shapley values can be used to estimate the relative contribution of each modality both locally and globally, and ii) a modified version of the chain rule can be used to propagate Shapley values through a sequence of models supporting interpretable local explanations. Our findings imply that a multimodal combination of black box models can be explained by propagating Shapley values through the model sequence.
title Feature importance to explain multimodal prediction models. A clinical use case
topic Machine Learning
url https://arxiv.org/abs/2404.18631