Ontology Working Group (OWG)

Mission and Scope

The scope and mission is determined by one of the goals of the Healthcare and Life Sciences Special Interest Group (HCLSIG) specified in the charter, viz., “Core vocabularies and ontologies to support cross-community data integration and collaborative efforts”. The main thrust of activities will be around the theme of coming up with best practices that revolve around the definition, creation, evaluation and maintenance of ontologies in the context of well defined use cases that are likely to be of interest to the broader HCLSIG community. Towards this end, this group will collaborate with other working groups within HCLSIG and the National Center for Biomedical Ontology (NCBO)  to achieve it’s objectives and targets.

Statement of Objectives

A set of use cases exemplifying the vision of the bench to the bedside will be specified. A carefully selected subset of these use cases will form the context for answering a set of questions that are likely to arise in the minds of a healthcare practitioner or a life science and clinical researcher as he she attempts to use ontologies and semantic web specifications to address his information and knowledge needs. These questions are:

 

1.      What is an ontology? A very pragmatic definition which encompasses among other things, terminologies (such as Snomed, GO) and information models (such as HL7 RIM). A working definition with guidelines and examples from various healthcare and life science applications need to be developed. The current definition of an ontology as enunciated by the W3C needs to be examined and extended if required. Ontology as a model of use needs to be emphasized in contrast to ontology as a model of meaning. The strategy will be to assimilate current “ontology-like” artifacts and extend them to create OWL-DL ontologies demonstrating with use case examples the value achieved in doing so.

 

2.      What information should be represented in an ontology? The various knowledge artifacts that could be represented using ontology-like artifacts need to be enumerated. Candidate representations of these artifacts could be terminologies such as Snomed and Gene Ontology, various Genomic artifacts such as Genes, Variants, Proteins and various clinical artifacts such as Clinical Documentation templates and Clinical Decision Support Rules. Ontologies can also be used to encode processes and process models related to biological pathways, clinical care protocols, clinical guidelines and web services annotation models. Other artifacts that need to be designed and represented in an ontology could be namespaces, mappings of ontological elements to underlying database schemas and other data structures and mappings across various identifier and value sets. Provenance information about a knowledge artifact such as “who”, “what”. “when”, etc.; versioning and history information and information about content dependencies could also be captured in an ontology.

 

3.      How should information be represented in an ontology? Various candidate possibilities of representing information and knowledge in an ontology are based on available standards such as RDF, OWL and SWRL. A set of best practice guidelines needs to be identified for knowledge representation. Furthermore the need for representing probabilistic knowledge is also crucial in the HCLS areas. Some sources of uncertainty include: uncertainty in data (e.g., uncertainty in genotyping data from the affymetrix chip), uncertainty in evidence, uncertainty in hypotheses, and quality/trust judgements (e.g., I trust HCM test results more from lab X then from lab Y). Current standards (RDF/OWL/SWRL) need to be investigated whether these requirements can be supported or the HCLSIG should propose some OWL/RDF extensions.

 

4.      How could ontologies be created? Collaborative approaches to develop ontologies with the involvement of subject matter experts, information architects and modelers and various application consumers (geneticists, clinicians). The ontology created could be a by product of performing a daily task (e.g., reporting on results of gene tests) and should have an immediate value (e.g., reporting templates). For instance, in the life sciences domain, the processes of annotating data should be interleaved with the processes of creating the ontology. In general, ontologies have been created as part of a social process involving a community effort or interested experts; or a process in which schema is designed by humans but instances/population is carried by automated and semi-automated techniques, and by automated means through corpus analysis and subsequent curation.  We may want to identify successful cases of each of these. Distributed ontology development encourages participation of domain experts. The resulting ontologies more accurately reflect rich, well-contextualized knowledge, but this also increases the challenge of global interoperability. This group should identify strategies for ontology federation, including web-friendly mechanisms for cross-ontology mapping, inferencing in the face of incomplete consistency, and distributed or modular reasoning. A set of building blocks and templates for ontology building that are specific to HCLS areas should be identified.

5.      How should ontologies be accesses and used? Standards for accessing and retrieiving ontological information may need to be identified. There are efforts in the healthcare informatics community to define web service standards for accessing and manipulating terminological concepts. The suitability of this standard for requirements of the HCLS areas could be examined and extensions could be proposed. Ontology-based inference functionality that checks for ontology consistency and subsumption knowledge

 

6.      How should ontologies be maintained? Knowledge change and evolution is a key issue in the HCLS areas. Especially there is a need for the use of old data against a new ontology and the use of new data against an ontology. As an ontology evolves so do the mappings of that ontology to the underlying database schemas.  Issues such as versioning, history and diffs, provenance, dependency propagation and ontology lifecycles are of critical importance in the HCLS areas.

 

7.      How should ontologies be evaluated? Ontologies can be evaluated using general principles of sound ontology design from the Knowledge Representation literature and taxonomy design principles from the Library Sciences. Issues such as the quality of ontologies depend on the evaluation of their content and their performance in an application context. These issues will become increasingly important as ontologies are increasingly used in the HCLS areas.

 

 

Tasks and Deliverables

BWG = BioRDF (Structured Data to RDF)

T2S = Text to Structured Data

KLWG = Knowledge LifeCycle Working Group

OWG = Ontology Best Practices Working Group

APWG = Adaptive Healthcare Protocols and Pathways Working Group

RWG = ROI Analysis Working Group

NCBO = National Center for Biomedical Ontology

SWBP = Semantic Web Best Practices and Deployment Working Group

 

Task

OWG

NCBO

SWBP

BWG

APWG

KLWG

Use Case Document

Co-Lead

 

 

Co-Lead

Contributor

Contributor

Ontology Definition and Best Practices Whitepaper

Lead

Contributor

Contributor

 

Contributor

 

Ontology Access and Usage Practices White Paper

Lead

Contributor

 

Contributor

Contributor

 

Ontology Development Wikis

Co-Lead

Co-Lead (BioPortal)

 

 

 

 

Ontology Maintenance Report

Contributor

Lead

Contributor

 

 

 

Ontology Evaluation Report

Contributor

Lead

Contributor

 

 

 

Use Case Solution Design/Prototype

Co-Lead

Contributor

 

Co-Lead

 

 

 

1.      Use Case Document: 3 months – in consultation and collaboration with the other working groups as illustrated above:

Task Coordinators: Vipul Kashyap, Mollie Ullman-Cullere

Collaborating Task Coordinators: Susie Stephens?, Helen Chen?

 

2.      Ontology Definition and Best Practices Whitepaper: 1 year – in collaboration with the groups illustrated above This white paper will survey all “ontology-like” artifacts that are currently being used in the HCLS areas and illustrate in the context of use case examples the value of extending them into OWL-DL ontologies This report will also identify best practices of representing them with proposed extensions to current standards. A set of current ontology fragments such as Snomed, MedRA and GO will be represented using these standards in the context of the use cases and insights from the experiences will be presented. In particular a set of pragmatic building blocks for the use cases at hand will be proposed.

Task Coordinators: Alfredo Morales, Wangxiao, Robert Stevens

Collaborating Task Coordinators: Alan Rector?, Helen Chen?

 

3.      Ontology Access and Usage Best Practices Report 6 months This report will survey current practices including standardized APIs and service interfaces for accessing and manipulating ontologies currently in use in the HCLS areas and propose possible extensions to the same.

Task Coordinators: Duncan Hall, Ray Hookaway

Collaborating Task Coordinators: Mark Musen?, Susie Stephens?, Helen Chen?

 

4.      Creation of Wikis for Ontology Development: 6 months – in collaboration with the NCBO and other bodies such as Snomed and OBO. These wikis will bring together a set of subject matter experts, information architects and modelers from various HCLS areas in a open and self-organizing manner to create ontologies, information models and other knowledge artifacts.

Task Coordinators: John Madden, Wangxiao

Collaborating Task Coordinators: Mark Musen?

 

5.      Ontology Maintenance Report: 18 months – The NCBO is in the process of developing techniques and best practices for creating ontologies. This report will describe an application of these techniques and best practices to the HCLS areas. The NCBO will take the lead in achieving this deliverable with feedback from the members of HCLSIG.

Task Coordinators: Mark Musen

Collaborating Task Coordinators: Vinay Chaudhri, Alan Rector?

 

6.      Ontology Evaluation Report: 18 months - The NCBO is in the process of developing tools and techniques for evaluating ontologies. This report will describe an application of these techniques and best practices to the HCLS areas. In particular, the HCLSIG members could participate in the ontology evaluation network proposed by the NCBO. The NCBO will take the lead in achieving this deliverable with feedback from the members of HCLSIG.

Task Coordinators: Mark Musen

Collaborating Task Coordinators: Amit Sheth, Alan Rector?

 

7.      Solution Design for a particular use Case: 2 years – The solution design would involve activities such as conversion of a subset of pre-existing ontologies/vocabularies such as Snomed, GO and MedRA into the OWL standard, creation of mappings of the subset ontology to well knownd databases such as GeneBank, Swiss Prot and some clinical databanks. Queries will be designed against the ontologies and the examples of the execution and final results will be presented.

      Task Coordinators: Vipul Kashyap, John Madden, Alfredo Morales

Collaborating Task Coordinators: Susie Stephens?