Description | Owner | Notes |
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Welcome and agenda | | NOTE - This is the last meeting for 2020
- Meetings will resume in 2021 on Wednesday 27th January.
| ECL Quick Reference | | On request, we have developed an ECL Quick Reference page with a summary of the ECL syntax and examples. Could the SLPG please review this page, and provide feedback. We plan to publish this as soon as possible. | ECL and Concrete Values | | For discussion: - Can '*' represent any decimal, integer or string, when used as the value of a data attribute?
- Are the following valid expression constraints (assume the attributes are data attribute)?
| Postcoordination Use Case Examples | All | Example 1 - Mapping Example 2 - Terminology binding Example 3 - Dentistry / Odontogram Example 4 - Natural Language Processing | Postcoordination Guidance | | Practical Guide to Postcoordination - Proposal - Use syntax (i.e. braces) to distinguish refinement vs new role group
- There should be a syntactic distinction between refinement and constructive addition (ie adding a new role group). That is:
- 83152002 |Oophorectomy| : 405815000 |Procedure device| = 122456005 |Laser device|
- is classified as (i.e. the refinement is added to the role groups in the definition of the focus concept(s)):
- 83152002 |Oophorectomy| : { 405815000 |Procedure device| = 122456005 |Laser device| }
- However, for attributes which are always self-grouped - i.e. Priority, Due to, After, Before, During, Clinical course, Temporally related to, and all Observable entity attributes (see Relationship Group), these must always be put into their own role group:
- 125605004 | Fracture of bone |: 42752001 | Due to (attribute) | = 1912002 | Fall |
- is classified as:
- 125605004 | Fracture of bone |: { 42752001 | Due to (attribute) | = 1912002 | Fall | }
- or
- 125605004 | Fracture of bone |:
{ 363698007 |Finding site|= 272673000 |Bone structure|, 116676008 |Associated morphology |= 72704001 |Fracture|} { 42752001 | Due to (attribute) | = 1912002 | Fall | }
- Proposal: Expression forms needed for this (see 93.4 Transforming Expressions)
- Close to user form - e.g. 83152002 |Oophorectomy| : 405815000 |Procedure device| = 122456005 |Laser device|
- Canonical close to user form - e.g. 83152002:405815000=122456005
- Classifiable form (SCG) - e.g. 83152002:{260686004=129304002,405813007=15497006,405815000=122456005}
- PLUS Classifiable form (OWL) - e.g.
- EquivalentClasses(:123063
ObjectIntersectionOf (:71388002 ObjectSomeValuesFrom(:609096000 ObjectIntersectionOf( ObjectSomeValuesFrom(:260686004 :129304002) ObjectSomeValuesFrom(:405813007 :15497006))))
- Necessary normal form - e.g. 83152002+416376001:{260686004=129304002,405813007=15497006,405815000=122456005}
- PLUS Necessary normal form (tables)
- Relationships:
- (123063 116680003 83152002) - 0
- (123063 260686004 129304002) - 0
- (123063 405813007 15497006) - 1
- (123063 405815000 122456005) - 1
- Primitive expressions - "<<<" (only useful in a mapping context) → .... relies on the assigned identifier (which are necessarily semantically unique).
- Proposed Transformation Rules - Refinements (in valid domain of focus concepts)
Close-to-user-form - IF the grouping of the refinement is not concept model valid THEN If there is a single (non-self-grouped) role group in the definition of the focus concept, then any ungrouped (but groupable) refinements are merged with this role group If there is more than one (non-self-grouped) role group in the definition then flag as ambiguous and require refinement NEED TO FIND a realistic clinical example where this may occur // Prevent failing cases from coming up // use template ALTERNATIVE: Refinement is applied to all (non-self-grouped) role groups in the definition Self-grouped attributes in the refinement are grouped on their own - i.e. Priority, Due to, After, Before, During, Clinical course, Temporally related to, and all Observable entity attributes (see Relationship Group) Self-grouped attributes in the definition of the focus concept(s) are left unchanged - Single refinement
83152002 |Oophorectomy| : 405815000 |Procedure device| = 122456005 |Laser device| - Two groupable refinements
83152002 |Oophorectomy| : 405815000 |Procedure device| = 122456005 |Laser device|, 363700003 |Direct morphology| = 367643001 |Cyst | - One groupable refinement with one self-grouped refinement
83152002 |Oophorectomy| : 405815000 |Procedure device| = 122456005 |Laser device|, 260870009 |Priority| = 394849002 |High priority|
- Refinement attribute matches (or subsumed by) attribute in focus concept's definition
83152002 |Oophorectomy| : 260686004 |Method| = 277261002 |Excision biopsy (qualifier value)| - Refinement explicitly in role group
83152002 |Oophorectomy| : { 260686004 |Method| = 281615006 | Exploration - action | , 405813007 |Procedure site - direct| = 367643001 |Cyst | }
Proposed Transformation Rules - Refinements (NOT in valid domain of focus concepts) Close-to-user-form - IF the refinement's attribute is not valid for the domain of the focus concept THEN If there is a single role group in the definition of the focus concept, which has an attribute value in the domain of the refinement's attribute THEN nest the relevant attribute value with the refinement added to the attribute value (Note: It doesn't matter if the role group is self-grouped or not (see example 1 below) If there is more than one role group in the definition of the focus concept, which has an attribute value in the domain of the refinement's attribute THEN (non-self-grouped) role group in the definition then flag as ambiguous and require refinement - Left aural temperature
- 415974002 |Aural temperature|: 272741003 |Laterality| = 7771000 |Left|
- → 415974002 |Aural temperature|: {704327008 |Direct site| = (42859004 |Ear drum|: 272741003 |Laterality| = 7771000 |Left|)}
- Malignant tumor of right ovary
- Other Example - Emergency excision of appendix
- 80146002 | Excision of appendix | :
260870009 |Priority| = 25876001 |Emergency|
- Other Example - Fracture of bone
- 125605004 |Fracture of bone|: 363698007 |finding site| = 84167007 |Foot bone|
- 125605004 |Fracture of bone|: {363698007 |finding site| = 84167007 |Foot bone| }
- 125605004 |Fracture of bone|: {116676008 |Associated morphology| = 72704001 |Fracture|,
363698007 |finding site| = 84167007 |Foot bone| } - 64572001 |Disease|: {116676008 |Associated morphology| = 72704001 |Fracture|,
363698007 |finding site| = 84167007 |Foot bone| }
| The items below are currently on hold | Other Options for Future Progress |
| - URIs for draft editions
- ECL extensions
- Primitive/Defined filters → concept filter
- Concept+Description filters (e.g. effectiveTime, module, active)
- Accessing Refset attributes → (e.g. historical association refsets) → historical ECL
- OR use full syntax to be able to query any table (e.g. Relationship table) - ie expand ECL into something more verbose (e.g. SNOMED query language)
- Template extensions
| URIs for Extended Editions |
| ON HOLD - How to refer to an 'extended edition' using a URI - e.g. "International Edition plus the following 2 nursing modules: 733983009 |IHTSDO Nursing Health Issues module|and 733984003 |IHTSDO Nursing Activities module| Use Case - Need to execute an ECL, that refers to "^ 733991000 | Nursing Health Issues Reference Set (foundation metadata concept) |" and/or "^ 733990004 | Nursing Activities Reference Set (foundation metadata concept) |", where the substrate includes the international edition, plus the modules that include these reference sets July 2020 International Edition URI: http://snomed.info/sct/900000000000207008/version/20200731 July 2020 International Edition + nursing modules URI ?? - For example: | Querying Refset Attributes | Linda Bird | ON HOLD - Proposed syntax to support querying and return of alternative refset attributes (To be included in the SNOMED Query Language) - Example use cases
- Execution of maps from international substance concepts to AMT substance concepts
- Find the anatomical parts of a given anatomy structure concept (in |Anatomy structure and part association reference set)
- Find potential replacement concepts for an inactive concept in record
- Find the order of a given concept in an Ordered component reference set
- Find a concept with a given order in an Ordered component reference set
- Potential syntax to consider (brainstorming ideas)
- SELECT ??
- SELECT 123 |referenced component|, 456 |target component|
FROM 799 |Anatomy structure and part association refset| WHERE 123 |referenced component| = (< 888 |Upper abdomen structure| {{ term = "*heart*" }} ) - SELECT id, moduleId
FROM concept WHERE id IN (< |Clinical finding|) AND definitionStatus = |primitive| - SELECT id, moduleId
FROM concept, ECL("< |Clinical finding") CF WHERE concept.id = CF.sctid AND definitionStatus = |primitive| - SELECT ??? |id|, ??? |moduleId|
FROM concept ( < |Clinical finding| {{ term = "*heart*" }} {{ definitionStatus = |primitive| }} ) - Question - Can we assume some table joins - e.g. Concept.id = Description.conceptId etc ??
- Examples
- Try to recast relationships table as a Refset table → + graph-based extension
- Find primitive concepts in a hierarchy
- ROW ... ?
- ROWOF (|Anatomy structure and part association refset|) ? (|referenced component| , |target component|)
- same as: ^ |Anatomy structure and part association refset|
- ROWOF (|Anatomy structure and part association refset|) . |referenced component|
- same as: ^ |Anatomy structure and part association refset|
- ROWOF (|Anatomy structure and part association refset|) {{ |referenced component| = << |Upper abdomen structure|}} ? |targetComponentId|
- ROWOF (< 900000000000496009|Simple map type reference set| {{ term = "*My hospital*"}}) {{ 449608002|Referenced component| = 80581009 |Upper abdomen structure|}} ? 900000000000505001 |Map target|
- (ROW (< 900000000000496009|Simple map type reference set| {{ term = "*My hospital*"}}) : 449608002|Referenced component| = 80581009 |Upper abdomen structure| ).900000000000505001 |Map target|
- # ... ?
- # |Anatomy structure and part association refset| ? |referenced component\
- # (|Anatomy struture and part association refset| {{|referenced component| = << |Upper abdomen structure|) ? |targetComponentid|
- ? notation + Filter refinement
- |Anatomy structure and part association refset| ? |targetComponentId|
- |Anatomy structure and part association refset| ? |referencedComponent| (Same as ^ |Anatomy structure and part association refset|)
(|Anatomy structure and part association refset| {{ |referencedComponent| = << |Upper abdomen structure}} )? |targetComponentId| - ( |Anatomy structure and part association refset| {{ |targetComponentId| = << |Upper abdomen structure}} ) ? |referencedComponent|
- ( |My ordered component refset|: |Referenced component| = |Upper abdomen structure ) ? |priority order|
- ? |My ordered component refset| {{ |Referenced component| = |Upper abdomen structure| }} . |priority order|
- ? |My ordered component refset| . |referenced component|
- equivalent to ^ |My ordered component refset|
- ? (<|My ordered component refset|) {{ |Referenced component| = |Upper abdomen structure| }} . |priority order|
- ? (<|My ordered component refset| {{ term = "*map"}} ) {{ |Referenced component| = |Upper abdomen structure| }} . |priority order|
- REFSETROWS (<|My ordered component refset| {{ term = "*map"}} ) {{ |Referenced component| = |Upper abdomen structure| }} SELECT |priority order|
- Specify value to be returned
- ? 449608002 |Referenced component|?
734139008 |Anatomy structure and part association refset|
- ^ 734139008 |Anatomy structure and part association refset| (Same as previous)
- ? 900000000000533001 |Association target component|?
734139008 |Anatomy structure and part association refset| - ? 900000000000533001 |Association target component|?
734139008 |Anatomy structure and part association refset| : 449608002 |ReferencedComponent| = << |Upper abdomen structure| - ? 900000000000533001 |Association target component|?
734139008 |Anatomy structure and part association refset| {{ 449608002 |referencedComponent| = << |Upper abdomen structure| }} - (? 900000000000533001 |Association target component|?
734139008 |Anatomy structure and part association refset| : 449608002 |ReferencedComponent| = (<< |Upper abdomen structure|) : |Finding site| = *)
| Returning Attributes | Michael Lawley | ON HOLD - Proposal (by Michael) for discussion - Currently ECL expressions can match (return) concepts that are either the source or the target of a relationship triple (target is accessed via the 'reverse' notation or 'dot notation', but not the relationship type (ie attribute name) itself.
For example, I can write: << 404684003|Clinical finding| : 363698007|Finding site| = <<66019005|Limb structure| << 404684003|Clinical finding| . 363698007|Finding site| But I can't get all the attribute names that are used by << 404684003|Clinical finding| - Perhaps something like:
- ? R.type ? (<< 404684003 |Clinical finding|)
- This could be extended to, for example, return different values - e.g.
- ? |Simple map refset|.|maptarget| ? (^|Simple map refset| AND < |Fracture|)
| Reverse Member Of | Michael Lawley | ON HOLD - Proposal for discussion What refsets is a given concept (e.g. 421235005 |Structure of femur|) a member of? - Possible new notation for this:
- ^ . 421235005 |Structure of femur|
- ? X ? 421235005 |Structure of femur| = ^ X
| Expression Templates | | - ON HOLD WAITING FROM IMPLEMENTATION FEEDBACK FROM INTERNAL TECH TEAM
- WIP version - https://confluence.ihtsdotools.org/display/WIPSTS/Template+Syntax+Specification
- Added a 'default' constraint to each replacement slot - e.g. default (72673000 |Bone structure (body structure)|)
- Enabling 'slot references' to be used within the value constraint of a replacement slot - e.g. [[ +id (<< 123037004 |Body structure| MINUS << $findingSite2) @findingSite1]]
- Allowing repeating role groups to be referenced using an array - e.g. $rolegroup[1] or $rolegroup[!=SELF]
- Allow reference to 'SELF' in role group arrays
- Adding 'sameValue' and 'allOrNone' constraints to information slots - e.g. sameValue ($site), allOrNone ($occurrence)
- See changes in red here: 5.1. Normative Specification
Examples: [[+id]]: [[1..*] @my_group sameValue(morphology)] { |Finding site| = [[ +id (<<123037004 |Body structure (body structure)| MINUS << $site[! SELF ] ) @site ]] , |Associated morphology| = [[ +id @my_morphology ]] } - Implementation feedback on draft updates to Expression Template Language syntax
- Use cases from the Quality Improvement Project:
- Multiple instances of the same role group, with some attributes the same and others different. Eg same morphology, potentially different finding sites.
Note that QI Project is coming from a radically different use case. Instead of filling template slots, we're looking at existing content and asking "exactly how does this concept fail to comply to this template?" For discussion: Scg expression |
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[[0..1]] { [[0..1]] 246075003 |Causative agent| = [[+id (< 410607006 |Organism|) @Organism]] } |
Is it correct to say either one of the cardinality blocks is redundant? What are the implications of 1..1 on either side? This is less obvious for the self grouped case. Road Forward for SI- Generate the parser from the ABNF and implement in the Template Service
- User Interface to a) allow users to specify template at runtime b) tabular (auto-completion) lookup → STL
- Template Service to allow multiple templates to be specified for alignment check (aligns to none-off)
- Output must clearly indicate exactly what feature of concept caused misalignment, and what condition was not met.
Additional note: QI project is no longer working in subhierarchies. Every 'set' of concepts is selected via ECL. In fact most reports should now move to this way of working since a subhierarchy is the trivial case. For a given template, we additionally specify the "domain" to which it should be applied via ECL. This is much more specific than using the focus concept which is usually the PPP eg Disease. FYI Michael Chu | Description Templates | Kai Kewley | - ON HOLD
- Previous discussion (in Malaysia)
- Overview of current use
- Review of General rules for generating descriptions
- Removing tags, words
- Conditional removal of words
- Automatic case significance
- Generating PTs from target PTs
- Reordering terms
- Mechanism for sharing general rules - inheritance? include?
- Description Templates for translation
- Status of planned specification
| Query Language - Summary from previous meetings
| | FUTURE WORK Examples: version and dialect Notes
- Allow nested where, version, language
- Scope of variables is inner query
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