cimi – semantichealthnet meeting brussels 2014 presentation of wp 4: "harmonised resources...
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CIMI – SemanticHealthNet Meeting Brussels 2014 Presentation of WP 4: "Harmonised Resources for Semantic Interoperability". Activity domain: Tangible evidence. Activity domain: Generalisability & scalability and sustainability. WP 3 Stakeholder validation - PowerPoint PPT PresentationTRANSCRIPT
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CIMI – SemanticHealthNet Meeting Brussels 2014
Presentation of WP 4:
"Harmonised Resources for Semantic Interoperability"
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Activity domain: Tangible evidence
Activity domain:Generalisability & scalability and sustainability
WP 1 Patient care
exemplar: chronic heart failure
WP 3 Stakeholder
validation Additional conditions
and patient populations
Professional communities
Clinical governance Citizen communities Health authorities Global public health
WP 2 Public health
exemplar: cardio-vascular prevention
Workstream I
Health-directed requirements, success criteria, governance
Workstream II
SDO-harmonised and tailored resources, tools and methods
WP 4 Harmonised
resources for EHRs/PHRs & aggregation
WP 6 Industrial
engagement Integration into
clinical/public health information systems
Industrial exploitation
Recommendations to SDOs
WP 5 Infostructure &
tools Artefact
governance, certification & testing
WP 7 Adoption & sustainability
strategies Business success factors Sustainability models
Workstream III
Sustainability / Network co-ordination
WP 9 Project management, dissemination, promotion
WP 8 European Virtual
Organisation Community building Organisational
governance Liaison with EU initiatives Liaison with national
bodies Education, training
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…planned follow up of SemanticHealthNet
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Activity domain: Tangible evidence
Activity domain:Generalisability & scalability and sustainability
WP 1 Patient care
exemplar: chronic heart failure
WP 3 Stakeholder
validation Additional conditions
and patient populations
Professional communities
Clinical governance Citizen communities Health authorities Global public health
WP 2 Public health
exemplar: cardio-vascular prevention
Workstream I
Health-directed requirements, success criteria, governance
Workstream II
SDO-harmonised and tailored resources, tools and methods
WP 4 Harmonised
resources for EHRs/PHRs & aggregation
WP 6 Industrial
engagement Integration into
clinical/public health information systems
Industrial exploitation
Recommendations to SDOs
WP 5 Infostructure &
tools Artefact
governance, certification & testing
WP 7 Adoption & sustainability
strategies Business success factors Sustainability models
Workstream III
Sustainability / Network co-ordination
WP 9 Project management, dissemination, promotion
WP 8 European Virtual
Organisation Community building Organisational
governance Liaison with EU initiatives Liaison with national
bodies Education, training
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Workpackage 4
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Mission: Provide an intermediate semantic layer
able to deal with the unavoidable heterogeneity which arises when clinical information is represented across or within the same
medical domain.
• Leader: Medical University of Graz• Participants:
- Ocean Informatics- EN 13606- HL7 International- Eurorec
External experts: Daniel Karlsson, Rahil Qamar, Ronald Cornet, Alan Rector, Rong Chen, Jesualdo Tomás, Diego Boscá, Mathias Brochhausen, Bill Hogan, Mar Marcos
- Geneva Univ. Hospital- INSERM, Paris- IHTSDO- WHO
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Basic assumption of WP 4– Plurality of Information Model approaches exists:
• openEHR, 13606 / SIAMM / HL7 v3 / CIMI, …• Local schemas are still largely predominant• Information model like structures in existing terminology systems:
context model of SNOMED CT• Free text (on purpose out of scope in SHN)
– Plurality of representations within one specification exists– WP4's relation to information models
• does not develop "yet another" information model• maintains equidistance and neutrality • does not contribute to the development of new information models or
model variants• looks at content and not at structure
– WP4 wants to explore formal approaches to improve interoperability
15 Mar 2014
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Role of Ontology and Logic– Transform existing resources (terminologies,
clinical models) into “semantically enhanced” ones, using ontology-based formalisms
– Rationales for using formal ontology: • Possibility to detect equivalences across different
distributions of content between information models and terminologies using logic-based reasoning
• Advanced exploitation of clinical information by means of semantic query possibilities
also• Terminologies like SNOMED CT increasingly using
ontology languages such as OWL• Fuzziness of terminology / information model boundary
15 Mar 2014
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Overlap Terminologies / Information Models
Clinical Terminologies
Clinical Information Models
• Clinical Information models to be used without or with inexpressive terminologies
• Terminologies to be used without information models
• Contextual statements (negation, plans, beliefs…) within terminologies– SNOMED CT context model– ICD 11 content model
• Local terminology within IMs• Postcoordination within IMs
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Consequence: Plurality of isosemantic expressions
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Consequence: Plurality of isosemantic expressions
• Information model representation (no binding)
confirmed
cancer
It provides some semantics but does not distinguish between information and what it represents. Reference to terminological / ontological standard is optional
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Consequence: Plurality of isosemantic expressions
• Information model representation (no binding)
• Terminology representation395099008 |cancer confirmed|
confirmed
cancer
It provides some semantics but does not distinguish between information and what it represents. Reference to terminological / ontological standard is optional
Everything packaged in one codeNo separate information model needed
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Consequence: Plurality of isosemantic expressions
• Information model representation (no binding)
• Terminology representation395099008 |cancer confirmed|
15 Mar 2014
• Information model / Terminology representation
confirmed
cancer
Cancer
confirmed
cancer
Terminology expression
NO SEMANTIC INTEROPERABILITY
binding
It provides some semantics but does not distinguish between information and what it represents. Reference to terminological / ontological standard is optional
Everything packaged in one codeNo separate information model needed
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Ontologies – chances and difficulties
• Our hypothesis: ontologies can act as a “semantic glue” to create an unambiguous representation by relating information model entities and clinical terminologies
• Ontologies will help us to distinguish between:– Clinical entities “what does Heart Failure exactly mean?”
– Information entities “what is documented about a specific heart failure instance?”
– Epistemic entities “how sure am I whether it is heart failure?”
– Clinical process entities “what is done to acquire the knowledge I need?”
• Known limitations– expressiveness limited if computable (subset FOL)– the difficulty of "thinking ontologically"
15 Mar 2014
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Ontologies re-used and created in SemanticHealthNet
"Clinical entities" (findings, disorders, procedures, substances, organisms...)
ClinicalProcesses
InformationArtifacts
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"Clinical entities" (findings, disorders, procedures, substances, organisms...)
ClinicalProcesses
InformationArtifacts SNOMED CT
Domain Ontology
Ontologies re-used and created in SemanticHealthNet
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Toplevel Categories
Basic relations Constraining axioms
"Clinical entities" (findings, disorders, procedures, substances, organisms...)
ClinicalProcesses
InformationArtifacts
BioTopLiteUpper LevelOntology
SNOMED CTDomain Ontology
Constraining axioms
Ontologies re-used and created in SemanticHealthNet
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"Clinical entities" (findings, disorders, procedures, substances, organisms...)
ClinicalProcesses
InformationArtifacts
existence can be taken for granted existence of concrete instances in a real patient may be hypothetic
????
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Basic representational pattern for terminology binding
• Example: Diagnosis (statement about clinical situation)
EHR
WHAT?
WHO?
WHEN?
Neoplasia
"this is an information entity of a certain type (e.g. diagnostic statement) which has an attribute (e.g. "suspected") , which is created by a health professional at a given time and is about some type of clinical entity (e.g. neoplasia)…"
DemographicsTime stampsMetadata
annotation of an information item Patient X
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Example: “Suspected heart failure caused by ischaemic heart disease”
One code or postcoordinated expression in SNOMED CT Reference to two kinds of disorders
(ontological types / concepts) Semantic relation between both Epistemic context: represents state of knowledge about a
clinical situation Not clear whether there is really some heart failure at all! • Many entries in EHRs must not be interpreted as factual statements• Blending of ontological and epistemic information in one code
characteristic for many clinical terminologies
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• Three heterogeneous representations of the same statement• Three different atomic information entities
“Suspected heart failure caused by ischaemic heart disease”
Organ Failure Diagnosis
Organ Heart
Status Suspected
Caused by ischaemic heart disease
Yes NoUnknown
Diagnosis
Suspected heart failure caused by ischaemic heart disease
x
Diagnosis
Heart Failure
Status
Suspected
Cause
Ischaemic heart disease
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“Suspected heart failure caused by ischaemic heart disease” Annotation 1
OrganFailureDiagnosis
Organ Heart
Status Suspected
Causedbyischaemicheartdisease
YesNoUnknown
x
is a diagnosisabout organfailure
is adiagnosisabout heartfailure
is asuspectedorgan failurediagnosis
is a organ failure diagnosisabout a disordercausedbyischaemicheartdisease
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“Suspected heart failure caused by ischaemic heart disease” Annotation 1
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“Suspected heart failure caused by ischaemic heart disease” Annotation 2
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“Suspected heart failure caused by ischaemic heart disease” Annotation 3
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One diagnosis instance for each model
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Query 1
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All three information instances found
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All three information instances found
Query 2
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How do we apply that?
ClinicalModel
ISO 13606
ClinicalModel
openEHR
ClinicalModel
HL7 CDA ClinicalModel
…
SEMANTICPATTERNS
SHNOntology
Framework
annotated with
annotated with
annotated with
annotated with
compliant with
SNOMED CT
ContextModel
Use cases: heart failure and
cardivascular health
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How do we apply that?
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ClinicalModel
ISO 13606
ClinicalModel
openEHR
ClinicalModel
HL7 CDA ClinicalModel
…
SEMANTICPATTERNS
SHNOntology
Framework
annotated with
annotated with
annotated with
annotated with
compliant with
SNOMED CT
ContextModel
Use cases: heart failure and
cardivascular health
CIMI