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Main Authors: Su, Haoyang, Xiang, Jin-Yi, Rui, Shaohao, Gao, Yifan, Chen, Xingyu, Yin, Tingxuan, Zhang, Shaoting, Wang, Xiaosong, Wu, Lian-Ming
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.19325
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author Su, Haoyang
Xiang, Jin-Yi
Rui, Shaohao
Gao, Yifan
Chen, Xingyu
Yin, Tingxuan
Zhang, Shaoting
Wang, Xiaosong
Wu, Lian-Ming
author_facet Su, Haoyang
Xiang, Jin-Yi
Rui, Shaohao
Gao, Yifan
Chen, Xingyu
Yin, Tingxuan
Zhang, Shaoting
Wang, Xiaosong
Wu, Lian-Ming
contents Accurate prediction of major adverse cardiac events (MACE) remains a central challenge in cardiovascular prognosis. We present PRISM (Prompt-guided Representation Integration for Survival Modeling), a self-supervised framework that integrates visual representations from non-contrast cardiac cine magnetic resonance imaging with structured electronic health records (EHRs) for survival analysis. PRISM extracts temporally synchronized imaging features through motion-aware multi-view distillation and modulates them using medically informed textual prompts to enable fine-grained risk prediction. Across four independent clinical cohorts, PRISM consistently surpasses classical survival prediction models and state-of-the-art (SOTA) deep learning baselines under internal and external validation. Further clinical findings demonstrate that the combined imaging and EHR representations derived from PRISM provide valuable insights into cardiac risk across diverse cohorts. Three distinct imaging signatures associated with elevated MACE risk are uncovered, including lateral wall dyssynchrony, inferior wall hypersensitivity, and anterior elevated focus during diastole. Prompt-guided attribution further identifies hypertension, diabetes, and smoking as dominant contributors among clinical and physiological EHR factors.
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institution arXiv
publishDate 2025
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spellingShingle PRISM: A Framework Harnessing Unsupervised Visual Representations and Textual Prompts for Explainable MACE Survival Prediction from Cardiac Cine MRI
Su, Haoyang
Xiang, Jin-Yi
Rui, Shaohao
Gao, Yifan
Chen, Xingyu
Yin, Tingxuan
Zhang, Shaoting
Wang, Xiaosong
Wu, Lian-Ming
Computer Vision and Pattern Recognition
Accurate prediction of major adverse cardiac events (MACE) remains a central challenge in cardiovascular prognosis. We present PRISM (Prompt-guided Representation Integration for Survival Modeling), a self-supervised framework that integrates visual representations from non-contrast cardiac cine magnetic resonance imaging with structured electronic health records (EHRs) for survival analysis. PRISM extracts temporally synchronized imaging features through motion-aware multi-view distillation and modulates them using medically informed textual prompts to enable fine-grained risk prediction. Across four independent clinical cohorts, PRISM consistently surpasses classical survival prediction models and state-of-the-art (SOTA) deep learning baselines under internal and external validation. Further clinical findings demonstrate that the combined imaging and EHR representations derived from PRISM provide valuable insights into cardiac risk across diverse cohorts. Three distinct imaging signatures associated with elevated MACE risk are uncovered, including lateral wall dyssynchrony, inferior wall hypersensitivity, and anterior elevated focus during diastole. Prompt-guided attribution further identifies hypertension, diabetes, and smoking as dominant contributors among clinical and physiological EHR factors.
title PRISM: A Framework Harnessing Unsupervised Visual Representations and Textual Prompts for Explainable MACE Survival Prediction from Cardiac Cine MRI
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2508.19325