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Bridging the semantics gap between terminologies, ontologies, and information models

Bridging the semantics gap between terminologies, ontologies, and information models. 13th World Congress on Medical and Health Informatics Cape Town , South Africa. Stefan Schulz a Daniel Schober a Christel Daniel b,c Marie-Christine Jaulent b

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Bridging the semantics gap between terminologies, ontologies, and information models

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  1. Bridging the semantics gap between terminologies, ontologies, and information models 13th World Congress on Medical and Health Informatics Cape Town, SouthAfrica Stefan Schulza Daniel Schobera Christel Danielb,c Marie-Christine Jaulentb aInstitute of Medical Biometry and Medical Informatics, University Medical Center Freiburg, Germany bINSERM, UMR_S 872, eq.20, Descartes University, Paris, France cASIPSanté, Paris, France

  2. Representational Artifacts

  3. Representational Artifacts Ontology • Theory of reality

  4. Representational Artifacts blah blah • Theory of reality Ontology • Theory of meaning of (human language) designations Semantics

  5. Representational Artifacts blah blah • Theory of reality Ontology • Theory of meaning of (human language) designations Semantics • Theory of knowledge Epistemology

  6. Representational Artifacts • Theories that attempt to give precise mathematical formulations of the properties and relations of certain entities.(Stanford Encyclopedia of Philosophy) Ontologies • Set of terms representing the system of concepts of a particular subject field.  (ISO 1087) Terminologies • Artifacts in which information is recorded • A. Rector, SemanticHealth D6.1 Information models

  7. Representational Artifacts • Theories that attempt to give precise mathematical formulations of the properties and relations of certain entities.(Stanford Encyclopedia of Philosophy) Ontologies • Set of terms representing the system of concepts of a particular subject field.  (ISO 1087) Terminologies • Artifacts in which information is recorded • A. Rector, SemanticHealth D6.1 Information models

  8. Medical terminologies are sets of terms Table 1. “Non-Terms” in SNOMED CT Context independent Observer independent Can be represented by simple description logics axioms Source: SNOMED CT

  9. Connecting terminologies with ontologies • Theories that attempt to give precise mathematical formulations of the properties and relations of certain entities.(Stanford Encyclopedia of Philosophy) Ontologies • Set of terms representing the system of concepts of a particular subject field.  (ISO 1087) Terminologies • Artifacts in which information is recorded • A. Rector, SemanticHealth D6.1 Information models

  10. Simple description logic EL (as used in SNOMED CT) • Allows the expression of • Class hierarchies, e.g. Hepatitis B ⊑ Hepatitis • Necessary and sufficient conditions, e.g. Hepatitis  Inflammatory disease ⊓ has-location.Liver • Pre/postcoordination of complex expressions, e.g.Fracture of left femur  Femur Fracture ⊓ has-laterality.Left • But not: • Negations, cardinality constraints, value restrictions

  11. Medical terminologies are collections of terms Table 1. “Non-Terms” in SNOMED CT Domain terms Domain terms ?? Source: SNOMED CT

  12. Terms vs. Propositions Table 1. “Non-Terms” in SNOMED CT Context independent Observer independent Can be represented by simple description logics axioms • Context and observer dependent(administrative, clinical contexts) • Epistemic contexts • Cannot be represented in simple DL

  13. Representational Artifacts • Theories that attempt to give precise mathematical formulations of the properties and relations of certain entities.(Stanford Encyclopedia of Philosophy) Ontologies • Set of terms representing the system of concepts of a particular subject field.  (ISO 1087) Terminologies • Artifacts in which information is recorded • A. Rector, SemanticHealth D6.1 Information models

  14. Terms vs. propositions  Ontologies vs. Information models Table 1. “Non-Terms” in SNOMED CT • Language is misleading: • HL7 Act Class: “a record of something that is being done, has been done, can be done, or is intended or requested to be done”; i.e. members of this class are not concrete acts, but information entities about acts.

  15. Terms vs. propositions  Ontologies vs. Information models Table 1. “Non-Terms” in SNOMED CT “Planned Tonsillectomy” “Tonsillectomy” denotes denotes isAbout information artifact real process

  16. Can Information Models be expressed by the same logical framework as ontologies?

  17. Can Information Models be expressed by the same logical framework as ontologies? • Example SNOMED CT: “inbuilt” information model (“situation in specific context”) • Absent nose ⊑ Congenital malformation ⊓ FindingSite. Nasal Structure • Suspected Gallstones rg.( Associated finding.Gallstone⊓Finding context.Suspected⊓Temporal context. Current or Specified ⊓Subject relationship context. Subject of record) • Rescheduled operation of heart  Operation on heart ⊓ Priority. Rescheduled.

  18. Can Information Models be expressed by the same logical framework as ontologies? • Information entities as an extension of a domain ontology • Example: BioTop upper ontology

  19. Can Information Models be expressed as ontologies? • Information entities as an extension of a domain ontology • Example: BioTop upper ontology HL7 Act isAbout ? which quantifier? Action

  20. Can Information Models be expressed as ontologies? • Information entities as an extension of a domain ontology • Example: BioTop upper ontology HL7 Act HL7 Biopsy isAbout   isAbout Action Biopsy

  21. Can Information Models be expressed as ontologies? • Information entities as an extension of a domain ontology • Example: BioTop upper ontology modified by HL7 mood codes, certainty codes HL7 Act HL7 Biopsy isAbout  HL7 Planned Biopsy  isAbout Action Biopsy

  22. Extended description logics

  23. Examples (I) • Absent nose: • Human ⊓ hasPart. Nasal Structure • Planned heart operation: • Plan ⊓ isAbout. Operation on heart • Rescheduled heart operation: • Plan ⊓ (isAbout. Operation on heart)⊓ participantOf.Rescheduling

  24. Examples (II) • Diagnosis of Gallstones Diagnosis ⊓ isAbout.Gallstones • Confirmed diagnosis of Gallstones Diagnosis⊓ isAbout.Gallstones ⊓ isAbout. Gallstones • Suspected diagnosis of Gallstones Diagnosis⊓ isAbout. Gallstones ⊓ hasQuality.Suspected • Gallstones not diagnosed Gallstones⊓ inv(isAbout).Diagnosis • A false diagnosis of gallstones Diagnosis⊓ IsAbout.  use referent tracking

  25. Important references • Bodenreider O, Smith B, Burgun A. The Ontology-EpistemologyDivide: A Case Study in Medical Terminology. Proceedingsofthe Third International Conference on Formal Ontology in Information Systems (FOIS 2004), 185-195 • CeustersW, Smith B: Strategies for referent tracking in electronic health records. Journal of Biomedical Informatics, 2006, 39 (3), 362–378 • Rector AL, Brandt, S. Why Do it the hard way? The case for an expressive description logic for SNOMED. Journal of the American Medical Informatics Association 2008; 15: 744–751. • IAO Information Artifact Ontology. http://code.google.com/p/information-artifact-ontology/ • BioTop Domain Upper Level Ontologyhttp://purl.org/biotop

  26. Conclusions • Common logical framework encompassing ontologies and information models is possible • Representing information model entities using SNOMED style simple description logics (OWL-EL) produces incorrect axioms, leading to false conclusions • More expressive logic (OWL-QL) is necessary to represent most propositions typical for medical information models • Strict upper level distinction between information entities and real world entities • Using the isAboutrelation to bridge information entities with classes of real world entities • Important: appropriate use of quantifiers to prevent inadequate existential claims

  27. Acknowledgements • DFG, grant agreement JA 1904/2-1, SCHU 2515/1-1 GoodOD (Good Ontology Design). • EU 7th FP, grant agreement ICT-2007.5.2-217139, DebugIT (Detecting and eliminating bacteria using information technologies)

  28. Terminologies / Ontologies stray the terrain of information models TermInfo Draft Standard for Trial Use (DSTU): Information models stray the terrain of Terminologies / Ontologies

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