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Terminologies and openEHR
To be continuedTerminologies arranged in hierarchies, such as [SNOMED-CT|http://www.ihtsdo.org/], contain ontological components in that they use relationships between concepts to define other concepts. _to be continued_
The Archetypes and terminologies can be related directly in two ways (described in detail elsewhere):
- A node in an archetype which has a meaning represented in a terminology may be bound to that terminology and the relevant concept; and
- A node in an archetype may constrain the values of a DV_CODED_TEXT to be a specified set of terms from a particular terminology.
In fact, the archetype itself maintains a link to the specified set of terms - the actual set is described within a terminology service and assigned to the link in the archetype.
References
- Rector A L, Nowlan W A, Kay S. Foundations for an Electronic Medical Record. Methods of Information in Medicine, 1991, 30:179-186. citeseer
- Austin JL. How to Do Things With Words. Cambridge (Mass.) 1962 - Paperback: Harvard University Press, 2nd edition, 2005. amazon
- HL7 International. Reference Information Model (RIM). See http://www.hl7.org.
- Weed LL. Medical Records, Medical Education and Patient Care. The Problem Oriented Medical Record as a Basic Tool. Cleveland: Case Western Reserve University press, 1968. google scholar amazon
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Ceusters W, Smith B. Strategies for Referent Tracking in Electronic Health Records. J Biomed Inform. 2006 Jun;39(3):362-78. (ePub 2005 Sep 9, draft, slides presented during the IMIA WG6 workshop Ontology and Biomedical Informatics, Rome, Italy, April 29 - Mai 1, 2005) Anchor |
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Rudnicki R, Ceusters W, Manzoor S, Smith B. What Particulars are Referred to in EHR Data? A Case Study in Integrating Referent Tracking into an Electronic Health Record Application. In Teich JM, Suermondt J, Hripcsak C. (eds.), American Medical Informatics Association 2007 Annual Symposium Proceedings, Biomedical and Health Informatics: From Foundations to Applications to Policy, Chicago IL, 2007;:630-634. (abstract, draft)- Elstein AS, Shulman LS, Sprafka SA. Medical problem solving: an analysis of clinical reasoning. Cambridge, MA: Harvard University Press 1978. amazon
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- Beale T, Heard S. The GEHR Object Model - Technical Requirements. 2000. complete document.
- RICHE Consortium. RICHE ESPRIT Project. Final Report. Nov 30 1992.
- Ingram D, Lloyd D, Kalra D, Beale T, Heard S, Grubb, P, Dixon R, Camplin D, Ellis J, Maskens A. Deliverable 19,20,24: GEHR Architecture. GEHR Project 30/6/1995. complete document.
- Pierre GRENON, Barry SMITH and Louis GOLDBERG. Biodynamic Ontology: Applying BFO in the Biomedical Domain. From D. M. Pisanelli (ed.), Ontologies in Medicine, Amsterdam: IOS Press, 2004, 20-38. complete article
- Thomas Beale, Sam Heard. An Ontology-based Model of Clinical Information. pp760-764 Proceedings MedInfo 2007, K. Kuhn et al. (Eds), IOS Publishing 2007.