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01-10-2012 | Original Paper

Customer-Centered Careflow Modeling Based on Guidelines

Authors: Biqing Huang, Peng Zhu, Cheng Wu

Published in: Journal of Medical Systems | Issue 5/2012

Abstract

In contemporary society, customer-centered health care, which stresses customer participation and long-term tailored care, is inevitably becoming a trend. Compared with the hospital or physician-centered healthcare process, the customer-centered healthcare process requires more knowledge and modeling such a process is extremely complex. Thus, building a care process model for a special customer is cost prohibitive. In addition, during the execution of a care process model, the information system should have flexibility to modify the model so that it adapts to changes in the healthcare process. Therefore, supporting the process in a flexible, cost-effective way is a key challenge for information technology. To meet this challenge, first, we analyze various kinds of knowledge used in process modeling, illustrate their characteristics, and detail their roles and effects in careflow modeling. Secondly, we propose a methodology to manage a lifecycle of the healthcare process modeling, with which models could be built gradually with convenience and efficiency. In this lifecycle, different levels of process models are established based on the kinds of knowledge involved, and the diffusion strategy of these process models is designed. Thirdly, architecture and prototype of the system supporting the process modeling and its lifecycle are given. This careflow system also considers the compatibility of legacy systems and authority problems. Finally, an example is provided to demonstrate implementation of the careflow system.

Haux, R., Health information systems–past, present, future. Int. J. Med. Inform. 75(3–4):268–281, 2006. doi:10.1016/j.ijmedinf.2005.08.002.CrossRef

Shortliffe, E. H., and Cimino, J. J., Biomedical informatics: computer applications in health care and biomedicine. Springer Verlag, 2006.

Quinn, G. P., Pratt, C. L., Bryant-George, K., et al., Lung cancer patients’ decisions about clinical trials and the theory of planned behavior. J. Canc. Educ. 26(4):641–648, 2011.CrossRef

Bundesmann, R., and Kaplowitz, S. A., Provider communication and patient participation in diabetes self-care. Patient Educ. Counsel. 85(2):143–147, 2010. doi:10.1016/j.pec.2010.09.025.CrossRef

Clouten, K., and Weber, R., Patient-focused care … playing to win. Nurs. Manag. 25(2):34–36, 1994.

Davis, K., Schoenbaum, S. C., and Audet, A. M., A 2020 vision of patient-centered primary care. J. Gen. Intern. Med. 20(10):953–957, 2005. doi:10.1111/j.1525-1497.2005.0178.x.CrossRef

Stichler, J. F., Patient-centered healthcare design. J. Nurs. Adm. 41(12):503–506, 2011. doi:10.1097/NNA.0b013e3182378a3b.CrossRef

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

Layna, F., and Workflow Management C, Workflow handbook 2005. Future Strategies Inc., 2005.

10.

Quaglini, S., Stefanelli, M., Cavallini, A., Micieli, G., Fassino, C., and Mossa, C., Guideline-based careflow systems. Artif. Intell. Med. 20(1):5–22, 2000.CrossRef

11.

Wang, D., and Shortliffe, E. H., GLEE—a model-driven execution system for computer-based implementation of clinical practice guidelines. Proc. AMIA Symp. 855–859, 2002.

12.

Wyatt, J. C., Management of explicit and tacit knowledge. J. R. Soc. Med. 94(1):6–9, 2001.

13.

Stefanelli, M., Knowledge and process management in health care organizations. Methods Inf. Med. 43(5):525–535, 2004.

14.

Lenz, R., and Reichert, M., IT support for healthcare processes–premises, challenges, perspectives. Data Knowl. Eng. 61(1):39–58, 2007. doi:10.1016/j.datak.2006.04.007.CrossRef

15.

Ammon, D., Hoffmann, D., Jakob, T., Finkeissen, E., Detschew, V., and Wetter, T., Management of knowledge-intensive healthcare processes on the example of general medical documentation. In: Ardagna, D., Mecella, M., Yang, J. (Eds.), Business process management workshops, Berlin, 2009. Lecture Notes in Business Information Processing. Springer-Verlag Berlin, 324–335.

16.

Hoyt, D. B., Clinical practice guidelines. Am. J. Surg. 173(1):32–34, 1997.CrossRef

17.

Van Der Aalst, W., and Van Hee, K. M., Workflow management: models, methods, and systems. The MIT Press, 2004.

18.

Borst, W. N., Construction of engineering ontologies for knowledge sharing and reuse. University of Twente, Enschede, 1997.

19.

Uschold, M., King, M., Moralee, S., and Zorgios, Y., The enterprise ontology. Knowl. Eng. Rev. 13(1):31–89, 1998.CrossRef

20.

Gruninger, M., and Fox, M. S., The logic of enterprise modelling. Kluwer Academic Publishers, 1995.

21.

The Protégé Ontology Editor and Knowledge Acquisition System. http://protege.stanford.edu/

22.

OWL Web Ontology Language. http://www.w3.org/TR/owl-features/

23.

Panja, S., Starr, B., and Colleran, K. M., Patient knowledge improves glycemic control: is it time to go back to the classroom? 53(5):264, 2005.

24.

Lane, D. A., Ponsford, J., Shelley, A., Sirpal, A., and Lip, G. Y. H., Patient knowledge and perceptions of atrial fibrillation and anticoagulant therapy: effects of an educational intervention programme The West Birmingham Atrial Fibrillation Project. Int. J. Cardiol. 110(3):354–358, 2006.CrossRef

25.

High-level Petri Nets–Concepts, Definitions and Graphical Notation. Final Draft International Standard ISO/IEC 15909, October, 2000.

26.

Murata, T., Petri nets–properties, analysis and applications. Proc. IEEE 77(4):541–580, 1989.CrossRef

27.

XML Process Definition Language. www.wfmc.org/xpdl.html

28.

Curbera, F., Goland, Y., Klein, J., Leymann, F., Roller, D., Thatte, S., Weerawarana, S., and Thatte, S., Business process execution language for web services, version 1.0, 2002 http://www.oasis-open.org/committees/download.php/2046/BPEL%20V1-1%20May%205%202003%20Final.pdf

29.

Boxwala, A. A., Peleg, M., Tu, S., Ogunyemi, O., Zeng, Q. T., Wang, D., Patel, V. L., Greenes, R. A., and Shortliffe, E. H., GLIF3: a representation format for sharable computer-interpretable clinical practice guidelines. J. Biomed. Informat. 37(3):147–161, 2004.CrossRef

30.

Wang, D. W., Peleg, M., Tu, S. W., Boxwala, A. A., Ogunyemi, O., Zeng, Q., Greenes, R. A., Patel, V. L., and Shortliffe, E. H., Design and implementation of the GLIF3 guideline execution engine. J. Biomed. Informat. 37(5):305–318, 2004. doi:10.1016/j.jbi.2004.06.002.CrossRef

31.

Dadam, P., and Reichert, M., The ADEPT project: a decade of research and development for robust and flexible process support: challenges and achievements. Comput. Sci. Res. Dev. 23(2):81–97, 2009. doi:10.1007/s00450-009-0068-6.CrossRef

32.

Dadam, P., Reichert, M., Rinderle-Ma, S., Lanz, A., Pryss, R., Precleschly, M., Kolb, J., Ly, L. T., Jurisch, M., Kreher, U., and Goser, K., From ADEPT to AristaFlow BPM suite: a research vision has become reality. In: Rinderle Ma, S., Sadiq, S., Leymann, F. (Eds.), Business process management workshops, 2009, vol 43. Lecture Notes in Business Information Processing. Springer-Verlag Berlin, Berlin, pp 529–531.

33.

Lanz, A., Reichert, M., and Dadam, P., Making business process implementations flexible and robust: error handling in the AristaFlow BPM suite. http://dbis.eprints.uni-ulm.de/661/

34.

van der Aalst, W. M. P., van Dongen, B. F., Herbst, J., Maruster, L., Schimm, G., and Weijters, A., Workflow mining: a survey of issues and approaches. Data Knowl. Eng. 47(2):237–267, 2003. doi:10.1016/s0169-023x(03)00066-1.CrossRef

35.

van Dongen, B. F., de Medeiros, A. K. A., Verbeek, H. M. W., Weijters, A., and van der Aalst, W. M. P., The ProM framework: a new era in process mining tool support. In: Ciardo, G., and Darondeau, P. (Eds.), Applications and theory of Petri nets 2005, proceedings, vol 3536. Lecture Notes in Computer Science. Springer-Verlag Berlin, Berlin, pp. 444–454, 2005.CrossRef

36.

HL7, Health Level Seven. http://www.hl7.org/

37.

DICOM, Digital Imaging and Communications in Medicine. http://medical.nema.org/

38.

Pashalidis, A., and Mitchell, C. J., A taxonomy of single sign-on systems. In: SafaviNaini, R., and Seberry, J. (Eds.), Information security and privacy, proceedings, vol 2727. Lecture Notes in Computer Science. Springer-Verlag Berlin, Berlin, pp. 249–264, 2003.

39.

World Health Organization. Worldwide prevalence of anaemia 1993–2005. http://whqlibdoc.who.int/publications/2008/9789241596657_eng.pdf

40.

World Health Organization. Iron deficiency anaemia: assessment, prevention, and control. A guide for programme managers, 2001. http://www.who.int/nutrition/publications/micronutrients/anaemia_iron_deficiency/WHO_NHD_01.3/en/index.html

Title: Customer-Centered Careflow Modeling Based on Guidelines
Authors: Biqing Huang
Peng Zhu
Cheng Wu
Publication date: 01-10-2012
Publisher: Springer US
Published in: Journal of Medical Systems / Issue 5/2012
Print ISSN: 0148-5598
Electronic ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-012-9823-5

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Customer-Centered Careflow Modeling Based on Guidelines

Abstract

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