Comparing computer-interpretable guideline models: a case-study approach.

OBJECTIVES Many groups are developing computer-interpretable clinical guidelines (CIGs) for use during clinical encounters. CIGs use "Task-Network Models" for representation but differ in their approaches to addressing particular modeling challenges. We have studied similarities and differences between CIGs in order to identify issues that must be resolved before a consensus on a set of common components can be developed. DESIGN We compared six models: Asbru, EON, GLIF, GUIDE, PRODIGY, and PROforma. Collaborators from groups that created these models represented, in their own formalisms, portions of two guidelines: American College of Chest Physicians cough guidelines [correction] and the Sixth Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure. MEASUREMENTS We compared the models according to eight components that capture the structure of CIGs. The components enable modelers to encode guidelines as plans that organize decision and action tasks in networks. They also enable the encoded guidelines to be linked with patient data-a key requirement for enabling patient-specific decision support. RESULTS We found consensus on many components, including plan organization, expression language, conceptual medical record model, medical concept model, and data abstractions. Differences were most apparent in underlying decision models, goal representation, use of scenarios, and structured medical actions. CONCLUSION We identified guideline components that the CIG community could adopt as standards. Some of the participants are pursuing standardization of these components under the auspices of HL7.

[1]  Samson W. Tu,et al.  A flexible approach to guideline modeling , 1999, AMIA.

[2]  Samson W. Tu,et al.  From guideline modeling to guideline execution: defining guideline-based decision-support services , 2000, AMIA.

[3]  M. Field,et al.  Guidelines for Clinical Practice: From Development to Use , 1992 .

[4]  Henrik Eriksson,et al.  Knowledge modeling at the millennium : The design and evolution of Protégé-2000 , 1999 .

[5]  P. Clayton,et al.  Encoding a post-operative coronary artery bypass surgery care plan in the Arden Syntax. , 1994, Computers in biology and medicine.

[6]  Samson W. Tu,et al.  A virtual medical record for guideline-based decision support , 2001, AMIA.

[7]  Aziz A. Boxwala,et al.  Handling Expressiveness and Comprehensibility Requirements in GLIF3 , 2001, MedInfo.

[8]  Richard N. Shiffman,et al.  Model Formulation: Representation of Clinical Practice Guidelines in Conventional and Augmented Decision Tables , 1997, J. Am. Medical Informatics Assoc..

[9]  Aziz A. Boxwala,et al.  Toward Standardization of Electronic Guideline Representation , 2000 .

[10]  J. Basile,et al.  Systolic blood pressure , 2002, BMJ : British Medical Journal.

[11]  Detection The sixth report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure (JNC VI) , 1997 .

[12]  Clement J. McDonald,et al.  Integrating medical information and knowledge in the HL7 RIM , 2000, AMIA.

[13]  Omolola Ogunyemi,et al.  Using features of Arden Syntax with object-oriented medical data models for guideline modeling , 2001, AMIA.

[14]  Samson W. Tu,et al.  Modeling Data and Knowledge in the EON Guideline Architecture , 2001, MedInfo.

[15]  John Fox,et al.  Safe and sound - artificial intelligence in hazardous applications , 2000 .

[16]  Samson W. Tu,et al.  Representation Formalisms and Computational Methods for Modeling Guideline-Based Patient Care , 2000, EWGLP.

[17]  John Fox,et al.  Supporting "Scenarios" in the PROforma Guideline Modelling Format , 2001, AMIA.

[18]  John Fox,et al.  Disseminating medical knowledge: the PROforma approach , 1998, Artif. Intell. Medicine.

[19]  Aziz A. Boxwala,et al.  Guideline classification to assist modeling, authoring, implementation and retrieval , 2000, AMIA.

[20]  Silvia Miksch,et al.  Metaphors of movement: a visualization and user interface for time-oriented, skeletal plans , 2001, Artif. Intell. Medicine.

[21]  Peter D. Johnson,et al.  A comparison study of guideline models Comparing Models of Decision and Action for Guideline-Based Decision Support : a Case-Study Approach ( Part 1 of 2 ) Running head : Comparing guideline decision and action models , 2002 .

[22]  Robert A. Greenes,et al.  Representation of clinical practice guidelines for computer-based implementations. , 2001, Studies in health technology and informatics.

[23]  A Gupta,et al.  Management of hypertension in primary care. , 2001, Age and ageing.

[24]  Giordano Lanzola,et al.  Flexible guideline-based patient careflow systems , 2001, Artif. Intell. Medicine.

[25]  Lidia Ruiz,et al.  Clinical utility of HIV-1 genotyping and expert advice: the Havana trial , 2002, AIDS.

[26]  R. Weinshilboum,et al.  The sixth report of the Joint National Committee on prevention, detection, evaluation, and treatment of high blood pressure. , 1997, Archives of internal medicine.

[27]  L. Boulet,et al.  Managing cough as a defense mechanism and as a symptom. A consensus panel report of the American College of Chest Physicians. , 1998, Chest.

[28]  M. Field,et al.  Guidelines for Clinical Practice: From Development to Use , 1992 .

[29]  Yuval Shahar,et al.  The Asgaard project: a task-specific framework for the application and critiquing of time-oriented clinical guidelines , 1998, Artif. Intell. Medicine.

[30]  Richard N. Shiffman,et al.  Model Formulation: GEM: A Proposal for a More Comprehensive Guideline Document Model Using XML , 2000, J. Am. Medical Informatics Assoc..

[31]  Silvana Quaglini,et al.  Supporting Tools for Guideline Development and Dissemination , 1997, AIME.

[32]  William DuMouchel,et al.  A meta-analysis of 16 randomized controlled trials to evaluate computer-based clinical reminder systems for preventive care in the ambulatory setting. , 1996, Journal of the American Medical Informatics Association : JAMIA.

[33]  Wil M. P. van der Aalst,et al.  The Application of Petri Nets to Workflow Management , 1998, J. Circuits Syst. Comput..

[34]  Omolola Ogunyemi,et al.  GLIF3: the evolution of a guideline representation format , 2000, AMIA.

[35]  Samson W. Tu,et al.  A Typology for Modeling Processes in Clinical Guidelines and Protocols , 2010, AMIA.

[36]  Nick Booth,et al.  Using scenarios in chronic disease management guidelines for primary care , 2000, AMIA.

[37]  T A Pryor,et al.  Rationale for the Arden Syntax. , 1994, Computers and biomedical research, an international journal.

[38]  J. Marc Overhage,et al.  Research Paper: A Randomized Trial of "Corollary Orders" to Prevent Errors of Omission , 1997, J. Am. Medical Informatics Assoc..

[39]  Silvana Quaglini,et al.  Guideline Compliance Improves Stroke Outcome: A Preliminary Study in 4 Districts in the Italian Region of Lombardia , 2002, Stroke.

[40]  A Boxwala,et al.  Toward the standardization of electronic guidelines. , 2000, M.D. computing : computers in medical practice.

[41]  Samson W. Tu,et al.  Implementing clinical practice guidelines while taking account of changing evidence: ATHENA DSS, an easily modifiable decision-support system for managing hypertension in primary care , 2000, AMIA.

[42]  Sandra Simonsen-Anderson,et al.  Safe and sound. , 2002, Nursing management.

[43]  Neill Jones,et al.  Achieving Reuse of Computable Guideline Systems , 2001, MedInfo.