Clinical Genomics Domain Information Model(s) Project

Project Scope

Throughout the past decade, the HL7 Clinical Genomics has been developing various artifacts (e.g., informative, DSTU and normative specifications), domain analysis models, storyboards, etc. The approved/trialed/proposed specifications are of different HL7 flavors, i.e., v3, v2, CDA and recently FHIR. These artifacts share some common view of clinical genomic data, but lack semantic alignment at the modeling level. Therefore, it is crucial to have agreed-upon Clinical Genomics Domain Information Model(s) (CG DIMs), which have the following functions:

• The CG DIMs reflect the results of the Domain Analysis Model efforts
• The CG DIMs serve as a single source of semantics with which all standard specifications are aligned
• The CG DIMs are represented in an HL7 standards-independent format, e.g., plain UML
• The CG DIMs are Universal and do not mandate binding to specific vocabularies (these bindings could be present in realm-specific versions of the actual standard specifications)

Project Need

The need for this project stems from ack of Clinical Genomics Domain Information Model(s), as well as from lack of alignment across the current HL7 Clinical Genomics specifications.

Success Criteria

The approval of agreed-upon Clinical Genomics DIMs is obviously the main success criterion. Nevertheless, due to the nature of this domain where knowledge is rapidly changing, an equally-important success criterion is to develop processes by which an ongoing update mechanism is enabled, as followed:

• Top-down update: enable update of the CG DIMs following changes to the CG DAM
• Bottom-up update: enable update of the CG DIMs following changes to the CG standard specifications, based on trial use and lessons learnt by early adopters

As future work, it would be desirable to have model-driven & semi-automated processes that enable the propagation of agreed-upon CG DIMs updates onto the standard specifications (e.g., GTR, v2, FHIR), so that they are all kept in synch with each other. Two possible candidates for this model-driven approach are the MDHT tool and the FHIR development infrastructure, which have the benefit of having CDA-based templates or FHIR genomic resources derived from the CG DIMs more easily.

Requirements

Enable standard representations of

• genomic data relevant to healthcare and well-being of individuals
• associations of discrete genomic data with discrete phenotypic data
• pre-clinical and clinical phenotypes
• observed and interpretive phenotypes