DRG grouping by machine learning: from expert-oriented to data-based method

• Published in: BMC medical informatics and decision making Vol. 21; no. 1; pp. 1 - 11
• Main Authors: Liu, Xiaoting, Fang, Chenhao, Wu, Chao, Yu, Jianxing, Zhao, Qi
• Format: Journal Article
• Language: English
• Published: London BioMed Central 09.11.2021; BioMed Central Ltd; Springer Nature B.V; BMC
• Subjects: Algorithms; Birth weight; China; Classification; Coefficients; Computer-aided medical diagnosis; Decision making; Diagnosis related groups; Diagnosis-related groups (DRGs); DRGs; Expenditures; Grouping; Health care; Health care access; Health care policy; Health Informatics; Healthcare; Hospitals; Information systems; Information Systems and Communication Service; Learning algorithms; Low cost; Machine learning; Management of Computing and Information Systems; Medical diagnosis; Medical research; Medicine; Medicine & Public Health; Methods; Patients; Payment systems; Performance enhancement; Performance evaluation; Simulation; Software upgrading; China; Healthcare; Grouping; China; Diagnosis-related groups (DRGs); Machine learning
• ISSN: 1472-6947; 1472-6947
• DOI: 10.1186/s12911-021-01676-7

Background Diagnosis-related groups (DRGs) are a payment system that could effectively solve the problem of excessive increases in healthcare costs which are applied as a principal measure in the healthcare reform in China. However, expert-oriented DRG grouping is a black box with the drawbacks of upcoding and high cost. Methods This study proposes a method of data-based grouping, designed and updated by machine learning algorithms, which could be trained by real cases, or even simulated cases. It inherits the decision-making rules from the expert-oriented grouping and improves performance by incorporating continuous updates at low cost. Five typical classification algorithms were assessed and some suggestions were made for algorithm choice. The kappa coefficients were reported to evaluate the performance of grouping. Results Based on tenfold cross-validation, experiments showed that data-based grouping had a similar classification performance to the expert-oriented grouping when choosing suitable algorithms. The groupings trained by simulated cases had less accuracy when they were tested by the real cases rather than simulated cases, but the kappa coefficients of the best model were still higher than 0.6. When the grouping was tested in a new DRGs system, the average kappa coefficients were significantly improved from 0.1534 to 0.6435 by the update; and with enough computation resources, the update process could be completed in a very short time. Conclusions As a new potential option, the data-based grouping meets the requirements of the DRGs system and has the advantages of high transparency and low cost in the design and update process.