Dynamic Survival Prediction using Longitudinal Images based on Transformer
By: Bingfan Liu, Haolun Shi, Jiguo Cao
Potential Business Impact:
Finds diseases earlier using many pictures.
Survival analysis utilizing multiple longitudinal medical images plays a pivotal role in the early detection and prognosis of diseases by providing insight beyond single-image evaluations. However, current methodologies often inadequately utilize censored data, overlook correlations among longitudinal images measured over multiple time points, and lack interpretability. We introduce SurLonFormer, a novel Transformer-based neural network that integrates longitudinal medical imaging with structured data for survival prediction. Our architecture comprises three key components: a Vision Encoder for extracting spatial features, a Sequence Encoder for aggregating temporal information, and a Survival Encoder based on the Cox proportional hazards model. This framework effectively incorporates censored data, addresses scalability issues, and enhances interpretability through occlusion sensitivity analysis and dynamic survival prediction. Extensive simulations and a real-world application in Alzheimer's disease analysis demonstrate that SurLonFormer achieves superior predictive performance and successfully identifies disease-related imaging biomarkers.
Similar Papers
A CNN-Transformer for Classification of Longitudinal 3D MRI Images -- A Case Study on Hepatocellular Carcinoma Prediction
CV and Pattern Recognition
Predicts liver cancer from scans over time.
Deep Learning Approach for Clinical Risk Identification Using Transformer Modeling of Heterogeneous EHR Data
Machine Learning (CS)
Helps doctors predict patient health risks better.
TrajSurv: Learning Continuous Latent Trajectories from Electronic Health Records for Trustworthy Survival Prediction
Machine Learning (CS)
Helps doctors predict patient survival better.