Artificial Intelligence in Traditional Chinese Medicine: Unraveling Herbal Medicine’s Mechanisms

人工智能 计算机科学 传统医学 心理学 特征(语言学) 人工智能应用 领域(数学) 钥匙(锁) 人工神经网络 动作(物理)
作者
Yibo He,Shiyue Wu,Jiayang Li,Shuangyu Chen,Shiliang Chen,Zhezhong Zhang,Beihui He,Yaonan Hong,Chengtao Sun,Guoyin Kai
出处
期刊:Research [American Association for the Advancement of Science]
卷期号:9: 1224-1224
标识
DOI:10.34133/research.1224
摘要

Traditional Chinese medicine (TCM), rooted in holistic philosophy, features a "multicomponent, multitarget, multipathway" therapeutic model that has long posed challenges for modern scientific interpretation due to its inherent complexity. Studies elucidating its biological mechanisms have historically relied on correlation-based analytical paradigms. Although artificial intelligence (AI) has been increasingly introduced into TCM research, most current applications remain confined to disease classification, outcome prediction, or herb-target association mining, with limited capacity to reconstruct the underlying biological logic of Zheng (TCM Syndrome) differentiation and formula compatibility. This review systematically elaborates on how network pharmacology serves as a foundational framework, constructing "herb-compound-target-disease" networks that align with TCM's holistic nature, while AI addresses network pharmacology's limitations-machine learning streamlines active component screening and ADME/T (absorption, distribution, metabolism, excretion, and toxicity) property prediction, and deep learning decodes spectroscopic data, complex biological interaction networks, and formula synergies. The integrated "computational prediction-experimental validation" workflow, validated across oncology, metabolic diseases, and infectious diseases, has become the gold standard for mechanistic research. Additionally, AI revolutionizes TCM quality control by linking chemical signatures to stable efficacy, integrates multiomics data to construct holistic regulatory networks, and enables translational progress through precision patient stratification, real-world evidence integration, and TCM knowledge graphs that structure fragmented knowledge. With the advancement of technology, generative AI for drug design, large language models for mining ancient texts, and multimodal "life models" promise to deepen integration. Ultimately, AI transcends being a mere tool, translating TCM's holistic philosophy into modern scientific language, advancing its modernization and internationalization, and offering insights for multitarget drug development in global healthcare.
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