用于动态量化和跨受试者比较的心血管波形信号波形流形上的通用坐标

Hau-Tieng Wu, Ruey-Hsing Chou, Shen-Chih Wang, Cheng-Hsi Chang, Yu-Ting Lin
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引用次数: 0

摘要

目的:为临床决策量化非平稳时间序列中的生理动态具有挑战性,尤其是在比较不同受试者的数据时。我们提出了一种解决方案,并利用两个真实世界的手术数据库进行了验证,重点是未充分利用的动脉血压 (ABP) 信号。方法:我们应用流形学习算法--动态扩散图(DDMap),结合新颖的通用坐标(UC)算法来量化非平稳时间序列的动态变化。该方法使用 ABP 信号进行了演示,并通过肝移植和心血管手术数据库(均包含临床结果)进行了验证。进行了敏感性分析,以评估稳健性并确定最佳参数。结果:得出的指数与临床结果之间的显著相关性验证了 UC 的应用。敏感性分析证实了算法的稳定性,并有助于优化参数。结论:DDMap 与 UC 相结合可实现 ABP 信号的动态量化和跨受试者比较。这项技术将手术室中通常被丢弃的 ABP 信号重新利用起来,有望应用于医院和家庭护理环境中的其他非稳态生物医学信号。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Universal coordinate on wave-shape manifold of cardiovascular waveform signal for dynamic quantification and cross-subject comparison
Objective: Quantifying physiological dynamics from nonstationary time series for clinical decision-making is challenging, especially when comparing data across different subjects. We propose a solution and validate it using two real-world surgical databases, focusing on underutilized arterial blood pressure (ABP) signals. Method: We apply a manifold learning algorithm, Dynamic Diffusion Maps (DDMap), combined with the novel Universal Coordinate (UC) algorithm to quantify dynamics from nonstationary time series. The method is demonstrated using ABP signal and validated with liver transplant and cardiovascular surgery databases, both containing clinical outcomes. Sensitivity analyses were conducted to assess robustness and identify optimal parameters. Results: UC application is validated by significant correlations between the derived index and clinical outcomes. Sensitivity analyses confirm the algorithms stability and help optimize parameters. Conclusions: DDMap combined with UC enables dynamic quantification of ABP signals and comparison across subjects. This technique repurposes typically discarded ABP signals in the operating room, with potential applications to other nonstationary biomedical signals in both hospital and homecare settings.
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