Machine learning-based method for interpreting the guidelines of the diagnosis and treatment of COVID-19_Journal of Biomedical Engineering

Authors：

PU Xiaorong ^1,2 , CHEN Kecheng ^1,2 , LIU Junchi ^1,2 , WEN Jin ³ , ZHNENG Shangwei ³ ,  LI Honghao ³

1. School of Computer Science and Engineering, University of Electronic Science and Technology of China, Chengdu 611731, P.R.China;
2. Health Big Data Institute of Big Data Center, University of Electronic Science and Technology of China, Chengdu 611731, P.R.China;
3. Institute of Hospital Management, West China Hospital, Sichuan University, Chengdu 610041, P.R.China;

Corresponding author：

LI Honghao, Email: 243424375@qq.com

Keywords：

COVID-19; novel coronavirus; artificial intelligence; machine learning; diagnosis and treatment plan; biomedical engineering

DOI：

10.7507/1001-5515.202003045

Video：

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The outbreak of pneumonia caused by novel coronavirus (COVID-19) at the end of 2019 was a major public health emergency in human history. In a short period of time, Chinese medical workers have experienced the gradual understanding, evidence accumulation and clinical practice of the unknown virus. So far, National Health Commission of the People’s Republic of China has issued seven trial versions of the “Guidelines for the Diagnosis and Treatment of COVID-19”. However, it is difficult for clinicians and laymen to quickly and accurately distinguish the similarities and differences among the different versions and locate the key points of the new version. This paper reports a computer-aided intelligent analysis method based on machine learning, which can automatically analyze the similarities and differences of different treatment plans, present the focus of the new version to doctors, reduce the difficulty in interpreting the “diagnosis and treatment plan” for the professional, and help the general public better understand the professional knowledge of medicine. Experimental results show that this method can achieve the topic prediction and matching of the new version of the program text through unsupervised learning of the previous versions of the program topic with an accuracy of 100%. It enables the computer interpretation of “diagnosis and treatment plan” automatically and intelligently.

Citation： PU Xiaorong, CHEN Kecheng, LIU Junchi, WEN Jin, ZHNENG Shangwei, LI Honghao. Machine learning-based method for interpreting the guidelines of the diagnosis and treatment of COVID-19. Journal of Biomedical Engineering, 2020, 37(3): 365-372. doi: 10.7507/1001-5515.202003045 Copy

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1. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第一版)[EB/OL]. (2020-01-16) [2020-03-24]. http://www.nhc.gov.cn/yzygj/s7659/202001/b91fdab7c304431eb082d67847d27e14.shtml.
2. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第二版)[EB/OL]. (2020-01-18) [2020-03-24]. http://www.360doc.com/content/20/0202/00/397911_889144879.shtml.
3. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第三版)[EB/OL]. (2020-01-23) [2020-03-24]. http://www.nhc.gov.cn/xcs/yqfkdt/202001/f492c9153ea9437bb587ce2ffcbee1fa.shtml.
4. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第四版)[EB/OL]. (2020-01-27) [2020-03-24]. http://www.nhc.gov.cn/yzygj/s7653p/202001/4294563ed35b43209b31739bd0785e67.shtml.
5. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第五版)[EB/OL]. (2020-02-04) [2020-03-24]. http://www.nhc.gov.cn/xcs/zhengcwj/202002/3b09b894ac9b4204a79db5b8912d4440.shtml.
6. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第六版)[EB/OL]. (2020-02-19) [2020-03-24]. http://www.nhc.gov.cn/yzygj/s7653p/202002/8334a8326dd94d329df351d7da8aefc2.shtml.
7. 国家卫生健康委员会, 国家中医药管理局. 新型冠状病毒感染的肺炎诊疗方案(试行第七版)[EB/OL]. (2020-03-04) [2020-03-24]. http://www.nhc.gov.cn/yzygj/s7653p/202003/46c9294a7dfe4cef80dc7f5912eb1989.shtml.
8. Anderson J A. Cognitive and psychological computation with neural models. IEEE Trans Syst Man Cybern, 1983, SMC-13(5): 799-815.
9. Blei D M, Ng A Y, Jordan M I. Latent dirichlet allocation. J Mach Learn Res, 2003, 2003(5): 993-1022.
10. Casella G, George E I. Explaining the Gibbs sampler. The American Statistician, 1992, 46(3): 167-174.
11. Gaussier E, Goutte C. Relation between PLSA and NMF and implications// Proceedings of the 28th Annual International ACM SIGIR Conference on Research and Development in Information Retrieval. New York: ACM, 2005: 601-602.
12. Lu Y, Mei Q, Zhai C. Investigating task performance of probabilistic topic models: an empirical study of PLSA and LDA. Information Retrieval, 2011, 14(2): 178-203.
13. Ramos J. Using TF-IDF to determine word relevance in document queries// Proceedings of the First Instructional Conference on Machine Learning. Piscataway: 2003: 33-142.
14. Pu X, Long K, Chen K, et al. A semantic-based short-text fast clustering method on hotline records in Chengdu// 2019 IEEE International Conference on Dependable, Autonomic and Secure Computing, International Conference on Pervasive Intelligence and Computing, International Conference on Cloud and Big Data Computing, International Conference on Cyber Science and Technology Congress (DASC/PiCom/CBDCom/CyberSciTech). Fukuoka: IEEE, 2019: 516-521.

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