Towards Predicting Temporal Changes in a Patient's Chest X-ray Images based on Electronic Health Records

Daeun Kyung, Junu Kim, Tackeun Kim, Edward Choi
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Abstract

Chest X-ray imaging (CXR) is an important diagnostic tool used in hospitals to assess patient conditions and monitor changes over time. Generative models, specifically diffusion-based models, have shown promise in generating realistic synthetic X-rays. However, these models mainly focus on conditional generation using single-time-point data, i.e., typically CXRs taken at a specific time with their corresponding reports, limiting their clinical utility, particularly for capturing temporal changes. To address this limitation, we propose a novel framework, EHRXDiff, which predicts future CXR images by integrating previous CXRs with subsequent medical events, e.g., prescriptions, lab measures, etc. Our framework dynamically tracks and predicts disease progression based on a latent diffusion model, conditioned on the previous CXR image and a history of medical events. We comprehensively evaluate the performance of our framework across three key aspects, including clinical consistency, demographic consistency, and visual realism. We demonstrate that our framework generates high-quality, realistic future images that capture potential temporal changes, suggesting its potential for further development as a clinical simulation tool. This could offer valuable insights for patient monitoring and treatment planning in the medical field.
基于电子健康记录预测患者胸部 X 射线图像的时间变化
胸部 X 射线成像(CXR)是医院用于评估病人病情和监测随时间变化的重要诊断工具。生成模型,特别是基于扩散的模型,在生成逼真的合成 X 射线方面已显示出前景。然而,这些模型主要侧重于利用单时间点数据(即通常在特定时间拍摄的 X 光片及其相应报告)进行条件生成,从而限制了其临床实用性,尤其是在捕捉时间变化方面。为了解决这一局限性,我们提出了一个新颖的框架 EHRXDiff,该框架通过将以前的 CXR 与随后的医疗事件(如处方、化验指标等)相结合来预测未来的 CXR 图像。我们全面评估了框架在临床一致性、人口统计学一致性和视觉真实性等三个关键方面的性能。我们证明,我们的框架能生成高质量、逼真的未来图像,并能捕捉潜在的时间变化,这表明它有潜力进一步发展成为临床模拟工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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