AI hybrid survival assessment for advanced heart failure patients with renal dysfunction.
Ge ZhangZeyu WangZhuang TongZhen QinChang SuDemin LiShuai XuKaixiang LiZhaokai ZhouYudi XuShiqian ZhangRuhao WuTeng LiYouyang ZhengJin-Ying ZhangKe ChengJun-Nan TangPublished in: Nature communications (2024)
Renal dysfunction (RD) often characterizes the worse course of patients with advanced heart failure (AHF). Many prognosis assessments are hindered by researcher biases, redundant predictors, and lack of clinical applicability. In this study, we enroll 1736 AHF/RD patients, including data from Henan Province Clinical Research Center for Cardiovascular Diseases (which encompasses 11 hospital subcenters), and Beth Israel Deaconess Medical Center. We developed an AI hybrid modeling framework, assembling 12 learners with different feature selection paradigms to expand modeling schemes. The optimized strategy is identified from 132 potential schemes to establish an explainable survival assessment system: AIHFLevel. The conditional inference survival tree determines a probability threshold for prognostic stratification. The evaluation confirmed the system's robustness in discrimination, calibration, generalization, and clinical implications. AIHFLevel outperforms existing models, clinical features, and biomarkers. We also launch an open and user-friendly website www.hf-ai-survival.com , empowering healthcare professionals with enhanced tools for continuous risk monitoring and precise risk profiling.
Keyphrases
- heart failure
- artificial intelligence
- ejection fraction
- free survival
- cardiovascular disease
- oxidative stress
- end stage renal disease
- healthcare
- single cell
- newly diagnosed
- machine learning
- south africa
- emergency department
- peritoneal dialysis
- risk assessment
- electronic health record
- type diabetes
- deep learning
- metabolic syndrome
- patient reported outcomes