前列腺癌
前列腺
癌症
人工智能
医学物理学
医学
肿瘤科
计算机科学
内科学
作者
Daniel Camacho-Gómez,Carlos Borau,José Manuel García‐Aznar,María José Gómez‐Benito,Mark Girolami,María Ángeles Pérez
标识
DOI:10.1038/s41746-025-01890-x
摘要
Existing prostate cancer monitoring methods, reliant on prostate-specific antigen (PSA) measurements in blood tests often fail to detect tumor growth. We develop a computational framework to reconstruct tumor growth from the PSA integrating physics-based modeling and machine learning in digital twins. The physics-based model considers PSA secretion and flux from tissue to blood, depending on local vascularity. This model is enhanced by deep learning, which regulates tumor growth dynamics through the patient's PSA blood tests and 3D spatial interactions of physiological variables of the digital twin. We showcase our framework by reconstructing tumor growth in real patients over 2.5 years from diagnosis, with tumor volume relative errors ranging from 0.8% to 12.28%. Additionally, our results reveal scenarios of tumor growth despite no significant rise in PSA levels. Therefore, our framework serves as a promising tool for prostate cancer monitoring, supporting the advancement of personalized monitoring protocols.
科研通智能强力驱动
Strongly Powered by AbleSci AI