Simulation conceptual modeling for optimizing acute stroke care organization
Authors: 
Durk-Jouke van der Zee, Maarten M. H. Lahr, Gert-Jan Luijckx, Erik BuskensAuthors Info & Claims
Pages 1403 - 1414
Abstract
Stroke is the second leading cause of death and a leading cause of long-term disability world-wide. Treatment with intravenous tissue plasminogen activator (tPA) is the most effective medical treatment for acute brain infarction within 4.5 hours after the onset of stroke symptoms to improve functional outcome. Unfortunately, tPA remains substantially underutilized. Stroke care organization is among the dominant factors determining undertreatment. Recently, simulation has been suggested and successfully implemented as a tool for optimizing stroke care pathway logistics. Starting from this observation we propose a domain specific simulation conceptual modeling framework, aiming to enhance decision making on acute stroke organization. The modeling framework provides guidance for the analyst, through specifying and structuring key modeling activities, and suggesting good practices and supportive methods for executing them. Relevance of the framework for project success is illustrated by a case example.
References
[1]
Adeoye, O., R. Hornung, P. Khatri, and D. Kleindorfer. 2011. "Recombinant Tissue-Type Plasminogen Activator Use for Ischemic Stroke in the United States: a Doubling of Treatment Rates over the course of 5 Years." Stroke 42:1952--1955.
[2]
Ahmed, F., Robinson, S., Tako, and A. A. Tako. 2014. "Conceptual Modelling: Lessons from Computer Science." In Proceedings of the Operational Research Society Workshop 2014 (SW14), edited by B.S. Onggo, C. Heavey, T. Monks, B. Tjahjono and D. J. van der Zee, Birmingham: OR Society.
[3]
Boode, B., V. Welzen, C. Franke, and R. van Oostenbrugge. 2007. "Estimating the Number of Stroke Patients Eligible for Thrombolytic Treatment if Delay Could Be Avoided." Cerebrovascular Diseases 23(4): 294--298.
[4]
Churilov, L., A. Fridriksdottir, M. Keshtkaran, I. Mosley, A. Flitman, and H.M. Dewey. 2013. "Decision Support in Pre-Hospital Stroke Care Operations: a Case of Simulation to Improve Eligibility of Acute Stroke Patients for Thrombolysis Treatment." Computers in Operations Research 40:2208--2218.
[5]
Fassbender, K., C. Balucani, S. Walter, S. R. Levine, A. Haass, and J. Grotta J. 2013. "Streamlining of Prehospital Stroke Management: the Golden Hour." Lancet Neurology 12(6): 585--596.
[6]
Ford A.L., J.A. Williams, M. Spencer, C. McCammon, N. Khoury, T. R. Sampson, P. Panagos, and J. M. Lee 2012. "Reducing Door-to-Needle Times Using Toyota's Lean Manufacturing Principles and Value Stream Analysis." Stroke 43(12): 3395--3398.
[7]
Hacke, W., M. Kaste, E. Bluhmki, M. Brozman, A. Davalos, D. Guidetti, V. Larrue, K. R. Lees, R. Kennedy, Z. Medeghri, T. Machnig, D. Schneider, R. von Kummer, N. Wahlgren, and D. Toni. 2008. "ECASS Investigators. Thrombolysis with Alteplase 3 to 4.5 Hours After Acute Ischemic Stroke. New England Journal of Medicine 359:1317--1329.
[8]
Karagoz, N. A., and O. Demirors. 2010. "Conceptual Modelling Notations and Techniques." In: Conceptual Modelling for Discrete-Event Simulation, edited by S. Robinson, R. Brooks, K. Kotiadis, and D.J. van der Zee, 179--210. Boca Raton: CRC/Taylor & Francis.
[9]
Kotiadis, K., A. A. Tako, and C. Vasilakis. "A Participative and Facilitative Conceptual Modelling Framework for Discrete Event Simulation Studies in Healthcare". Journal of the Operational Research Society 65(2): 197--213.
[10]
Kwan, J., P. Hand, and P. A. Sandercock. 2004. "A Systematic Review of Barriers to Delivery of Thrombolysis for Acute Stroke." Age Ageing 33:116--121.
[11]
Lahr, M. M. H., D.J. van der Zee, G.J. Luijckx, P. C. A. J. Vroomen, and E. Buskens. 2013a. "A Simulation-Based Approach for Improving Utilization of Thrombolysis in Acute Brain Infarction." Medical Care 51(12): 1101--1105.
[12]
Lahr, M. M. H., G.J. Luijckx, P. C. A. J. Vroomen, D.J. van der Zee, and E. Buskens. 2013b. "The Chain of Care Enabling tPA Treatment in Acute Ischemic Stroke: a Comprehensive Review of Organisational Models." Journal of Neurology 260(4): 960--968.
[13]
Lahr, M. M. H., D.J. van der Zee, P. C. A. J. Vroomen, G.J. Luijckx, and E. Buskens. 2013c. "Thrombolysis in Acute Ischemic Stroke: A Simulation Study to Improve Pre-and in-Hospital Delays in Community Hospitals." PLoS ONE 8(11) {79049}.
[14]
Lahr, M. M. H. 2013. "Organizational Models for Thrombolysis in Acute Ischemic Stroke: a Simulation Exemplar.", Phd thesis, University of Groningen, Groningen, The Netherlands.
[15]
Lees K. R., E. Bluhmki, R. von Kummer R, et al. 2010. "Time to Treatment with Intravenous Alteplase and Outcome in Stroke: an Updated Pooled Analysis of ECASS, ATLANTIS, NINDS, and EPITHET Trials." Lancet 375:1695--1703.
[16]
Meretoja A., M. Keshtkaran, J. L. Saver, T. Tatlisumak, M. W. Parsons, M. Kaste, S. M. Davis, G. A. Donnan, and L. Churilov. 2014. "Stroke Thrombolysis: Save a Minute, Save a Day." Stroke 45:1053--1058.
[17]
Monks, T., M. Pitt, K. Stein, and M. James. 2012. "Maximizing the Population Benefit from Thrombolysis in Acute Ischemic Stroke: a Modeling Study of In-Hospital Delays." Stroke 43:2706--2711.
[18]
The NINDS rt-PA Stroke Study Group. 1995. Tissue Plasminogen Activator for Acute Ischemic Stroke. New England Journal of Medicine 333:1581--1587.
[19]
Pitt, M., T. Monks, P. Agarwal, D. Worthington, G. A. Ford, R. Kennedy, R. Lees, K. Stein, and M. A. James. 2012 "Will Delays in Treatment Jeopardize the Population Benefit from Extending the Time Window for Stroke Thrombolysis?" Stroke 43:2992--2997.
[20]
Rankin, J. 1957. "Cerebral Vascular Accidents in Patients over the Age of 60. II. Prognosis." Scottish Medical Journal 2(5):200--215.
[21]
Robinson, S. 2008a. "Conceptual Modelling for Simulation Part I: Definition and Requirements." Journal of the Operational Research Society 59: 278--290.
[22]
Robinson, S. 2008b. "Conceptual Modelling for Simulation Part II: a Framework for Conceptual Modelling." Journal of the Operational Research Society 59: 291--304.
[23]
Singer, O. C., G. F. Hamann, B. Misselwitz, H. Steinmetz, and C. Foerch. 2012. Time Trends in Systemic Thrombolysis in a Large Hospital-Based Stroke Registry. Cerebrovascular Diseases 33(4): 316--321.
[24]
Truelsen, T., M. Ekman, and G. Boysen. 2005. "Cost of Stroke in Europe." European Journal of Neurology 12(Suppl 1): 78--84.
[25]
Van der Zee, D. J., and J. G. A. J Van der Vorst. 2005. "A Modeling Framework for Supply Chain Simulation -- Opportunities for Improved Decision-Making." Decision Sciences 36(1): 65--95.
[26]
Van der Zee, D.J., R. J. Brooks, S. Robinson, and K. Kotiadis. 2011. "Conceptual Modelling: Past, Present and Future" In: Conceptual Modelling for Discrete-Event Simulation, edited by S. Robinson, R. Brooks, K. Kotiadis, and D.J. van der Zee, 473--490. Boca Raton: CRC Press.
[27]
Waite, K., F. Silver, C. Jaigobin, S. Black, L. Lee, B. Murray, P. Danyliuk, and E. M. Brown. 2006. "Telestroke: a Multi-Site, Emergency-Based Telemedicine Service in Ontario." Journal of Telemedicine and Telecare 12(3):141--145.
[28]
Wardlaw J. M., P. A. Sandercock, and V. Murray V. 2009. "Should More Patients with Acute Ischaemic Stroke Receive Thrombolytic Treatment?" British Medical Journal 339:1251--1254.
- Simulation conceptual modeling for optimizing acute stroke care organization
Recommendations
Prevalence of Subacute Patients in Acute Care: Results of a Study of VA Hospitals
AbstractSubacute care is a transitional level of care for medically stable patients who no longer require daily diagnostic/invasive care but require more intensive care than is typical in a skilled care facility. A Congressionally mandated study was ...
A modeling framework that combines markov models and discrete-event simulation for stroke patient care
Stroke disease places a heavy burden on society, incurring long periods of hospital and community care. Also stroke is a highly complex disease with heterogeneous outcomes and multiple strategies for therapy and care. In this article we develop a ...
Comments
Please enable JavaScript to view thecomments powered by Disqus.Information & Contributors
Information
Published In
December 2015
4051 pages
ISBN:9781467397414
Sponsors
Publisher
IEEE Press
Publication History
Published: 06 December 2015
Check for updates
Qualifiers
- Research-article
Conference
WSC '15
Sponsor:
Acceptance Rates
WSC '15 Paper Acceptance Rate 202 of 296 submissions, 68%;
Overall Acceptance Rate 3,413 of 5,075 submissions, 67%
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 40Total Downloads
- Downloads (Last 12 months)2
- Downloads (Last 6 weeks)0
Reflects downloads up to 22 Nov 2024
Other Metrics
Citations
View Options
Login options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in