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A optimization framework for herbal prescription planning based on deep reinforcement learning

Authors :
Yang, Kuo
Yu, Zecong
Su, Xin
He, Xiong
Wang, Ning
Zheng, Qiguang
Yu, Feidie
Liu, Zhuang
Wen, Tiancai
Zhou, Xuezhong
Publication Year :
2023

Abstract

Treatment planning for chronic diseases is a critical task in medical artificial intelligence, particularly in traditional Chinese medicine (TCM). However, generating optimized sequential treatment strategies for patients with chronic diseases in different clinical encounters remains a challenging issue that requires further exploration. In this study, we proposed a TCM herbal prescription planning framework based on deep reinforcement learning for chronic disease treatment (PrescDRL). PrescDRL is a sequential herbal prescription optimization model that focuses on long-term effectiveness rather than achieving maximum reward at every step, thereby ensuring better patient outcomes. We constructed a high-quality benchmark dataset for sequential diagnosis and treatment of diabetes and evaluated PrescDRL against this benchmark. Our results showed that PrescDRL achieved a higher curative effect, with the single-step reward improving by 117% and 153% compared to doctors. Furthermore, PrescDRL outperformed the benchmark in prescription prediction, with precision improving by 40.5% and recall improving by 63%. Overall, our study demonstrates the potential of using artificial intelligence to improve clinical intelligent diagnosis and treatment in TCM.<br />13 pages, 4 figures

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....81e2973623c42df4c25ef49ffcc9b03d