Related papers: Aortic Valve Disease Detection from PPG via Physiology-Informed Self-Supervised Learning

Aortic Valve Disease Detection from PPG via Physiology-Informed Self-Supervised Learning

URL: http://arxiv.org/abs/2602.04266v1
Date: Wed, 04 Feb 2026 06:56:50 GMT
Title: Aortic Valve Disease Detection from PPG via Physiology-Informed Self-Supervised Learning
Authors: Jiaze Wang, Qinghao Zhao, Zizheng Chen, Zhejun Sun, Deyun Zhang, Yuxi Zhou, Shenda Hong,
Abstract summary: Photoplethysmography has emerged as a promising screening modality for aortic valve disease.<n>The extreme scarcity of gold-standard labeled PPG data severely constrains the effectiveness of data-driven approaches.<n>We propose and validate a new paradigm, Physiology-Guided Self-Supervised Learning (PG-SSL), aimed at unlocking the value of large-scale unlabeled PPG data.
Score: 14.821698474716504
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Traditional diagnosis of aortic valve disease relies on echocardiography, but its cost and required expertise limit its use in large-scale early screening. Photoplethysmography (PPG) has emerged as a promising screening modality due to its widespread availability in wearable devices and its ability to reflect underlying hemodynamic dynamics. However, the extreme scarcity of gold-standard labeled PPG data severely constrains the effectiveness of data-driven approaches. To address this challenge, we propose and validate a new paradigm, Physiology-Guided Self-Supervised Learning (PG-SSL), aimed at unlocking the value of large-scale unlabeled PPG data for efficient screening of Aortic Stenosis (AS) and Aortic Regurgitation (AR). Using over 170,000 unlabeled PPG samples from the UK Biobank, we formalize clinical knowledge into a set of PPG morphological phenotypes and construct a pulse pattern recognition proxy task for self-supervised pre-training. A dual-branch, gated-fusion architecture is then employed for efficient fine-tuning on a small labeled subset. The proposed PG-SSL framework achieves AUCs of 0.765 and 0.776 for AS and AR screening, respectively, significantly outperforming supervised baselines trained on limited labeled data. Multivariable analysis further validates the model output as an independent digital biomarker with sustained prognostic value after adjustment for standard clinical risk factors. This study demonstrates that PG-SSL provides an effective, domain knowledge-driven solution to label scarcity in medical artificial intelligence and shows strong potential for enabling low-cost, large-scale early screening of aortic valve disease.

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