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BMC Medical Informatics and Decision Making

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Open Access 01-12-2020 | Research

Modeling clinical activities based on multi-perspective declarative process mining with openEHR’s characteristic

Authors: Haifeng Xu, Jianfei Pang, Xi Yang, Jinghui Yu, Xuemeng Li, Dongsheng Zhao

Published in: BMC Medical Informatics and Decision Making | Special Issue 14/2020

Abstract

Background

It is significant to model clinical activities for process mining, which assists in improving medical service quality. However, current process mining studies in healthcare pay more attention to the control flow of events, while the data properties and the time perspective are generally ignored. Moreover, classifying event attributes from the view of computers usually are difficult for medical experts. There are also problems of model sharing and reusing after it is generated.

Methods

In this paper, we presented a constraint-based method using multi-perspective declarative process mining, supporting healthcare personnel to model clinical processes by themselves. Inspired by openEHR, we classified event attributes into seven types, and each relationship between these types is represented in a Constrained Relationship Matrix. Finally, a conformance checking algorithm is designed.

Results

The method was verified in a retrospective observational case study, which consists of Electronic Medical Record (EMR) of 358 patients from a large general hospital in China. We take the ischemic stroke treatment process as an example to check compliance with clinical guidelines. Conformance checking results are analyzed and confirmed by medical experts.

Conclusions

This representation approach was applicable with the characteristic of easily understandable and expandable for modeling clinical activities, supporting to share the models created across different medical facilities.

Rojas E, Jorge MG, Sepúlveda M, et al. Process mining in healthcare: a literature review. J Biomed Inform. 2016;61:224–36.CrossRef

Marlon D, Marcello LR, Jan M, et al. Fundamentals of business process management. Berlin: Springer; 2013.

Reichert M, Weber B. Enabling flexibility in process-aware information systems: challenges, methods, technologies. Berlin: Springer; 2012.CrossRef

Van der Aalst WMP. Process mining: data science in action. Berlin: Springer; 2016.CrossRef

Van der Aalst WMP, Weijters AJMM, Maruster L. Workflow mining: discovering process models from event logs. IEEE Trans Knowl Data Eng. 2004;16(9):1128–42.CrossRef

Schönig S, Ciccio C D , Maggi F M , et al. Discovery of multi-perspective declarative process models. In: International conference on service oriented computing. Springer, Berlin 2016.

Haifeng X, Jianfei Pang, Xi Y, et al. A modeling approach based on multi-perspective declarative process mining for clinical activity. In: IEEE international conferences on bioinformatics and biomedicine, 2019.

Pesic M, Van der Aalst W M P. A declarative approach for flexible business processes management. In: International conference on business process management, 2006.

Rebuge A, Ferreira DR. Business process analysis in healthcare environments: a methodology based on process mining. Inf Syst. 2012;37(2):99–116.CrossRef

10.

Anyanwu K, Sheth A, Cardoso J, et al. Healthcare enterprise process development and integration. J Res Pract Inf Technol. 2003;35(2):83–98.

11.

Rovani M, Maggi FM, De Leoni M, et al. Declarative process mining in healthcare. Expert Syst Appl. 2015;42(23):9236–51.CrossRef

12.

Montali M, Chesani F, Mello P, et al. Towards data-aware constraints in declare. In: Proceedings of the 28th annual ACM symposium on applied computing, 2013.

13.

Burattin A, Maggi FM, Sperduti A. Conformance checking based on multi-perspective declarative process models. Expert Syst Appl. 2016;65:194–211.CrossRef

14.

Kalra D, Beale T, Heard S. The openEHR foundation. Stud Health Technol Inform. 2005;115:153–73.PubMed

15.

Lingtong M, Qi T, Xudong L, et al. An openEHR based approach to improve the semantic interoperability of clinical data registry. BMC Med Inform Decis Mak. 2018, 18(15).

16.

Garde S, Knaup P, Hovenga EJS, et al. Towards semantic interoperability for electronic health records. Methods Inf Med. 2007;46(03):332–43.CrossRef

17.

Nadim A, Rong C, Tiago PM, et al. Retrospective checking of compliance with practice guidelines for acute stroke care: a novel experiment using openEHR’s Guideline Definition Language. BMC Med Inform Decis Mak. 2014;14(1):39.CrossRef

18.

Van der Aalst WMP, Pesic M, Schonenberg H. Declarative workflows: Balancing between flexibility and support. Comput Sci-Res Dev. 2009;23(02):99–113.CrossRef

19.

Simiao W, Bo W, Ming L, et al. Stroke in China: advances and challenges in epidemiology, prevention, and management. Lancet Neurol. 2019;18(04):1474–4422.

20.

Furie KL, Jayaraman MV. 2018 Guidelines for the early management of patients with acute ischemic stroke. Stroke. 2018;49:e46–99.CrossRef

21.

Rong Y, Ling F, Xiaolin L, et al. Examination and analysis of the implementation of nursing core system. West China Med J. 2012;27(03):449–51.

22.

Westergaard M, Maggi FM. Declare: a tool suite for declarative workflow modeling and enactment. In: Proceedings of the demo track of the nineth conference on business process management, France, 2011.

23.

Montani S. Conformance checking of executed clinical guidelines in presence of basic medical knowledge. In: Business process management workshops-bpm international workshops. DBLP, 2011.

24.

Montali M. Specification and verification of declarative open interaction models: a logic-based approach. In: LNBIP, Springer, 2010, 56.

25.

Awad A, Weidlich M, Weske M. Specification, Verification and explanation of violation for data aware compliance rules. In: Service-oriented computing, 7th international joint conference, 2009, Stockholm, Sweden, 24–27.

26.

Maggi FM, Westergaard M. Using timed automata for a priori, warnings and planning for timed declarative process models. Int J Co-op Inf Syst. 2014;23(01):1440003.CrossRef

27.

Mulyar N, Van der Aalst WMP, Peleg M. A pattern-based analysis of clinical computer-interpretable guideline modeling languages. J Am Med Inform Assoc. 2007;14(6):781–7.CrossRef

28.

Voinitchi A, Black E, Luck M, et al. From guidelines to careflows: modelling and supporting complex clinical processes. Stud Health Technol Inform. 2008;139:44–62.

29.

Clarke EM Jr, Grumberg O, Peled DA. Model checking. 2nd ed. Cambridge: The MIT Press; 2018.

Title: Modeling clinical activities based on multi-perspective declarative process mining with openEHR’s characteristic
Authors: Haifeng Xu
Jianfei Pang
Xi Yang
Jinghui Yu
Xuemeng Li
Dongsheng Zhao
Publication date: 01-12-2020
Publisher: BioMed Central
Published in: BMC Medical Informatics and Decision Making / Issue Special Issue 14/2020
Electronic ISSN: 1472-6947
DOI: https://doi.org/10.1186/s12911-020-01323-7

At a glance: The STEP trials

Springer Medicine

Modeling clinical activities based on multi-perspective declarative process mining with openEHR’s characteristic

Abstract

Background

Methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

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