Date & Time

20:00 UTC Wednesday 4th December 2019

Location

Zoom meeting: https://snomed.zoom.us/j/471420169

Goals

  • To progress work on
    • URIs
    • Templates
    • ECL
    • Query language

Attendees 

Agenda and Meeting Notes


Description
Owner
Notes

Welcome and agenda


Concrete valuesLinda Bird

Boolean added to draft SCG, ECL, STS and ETL specifications

PLEASE REVIEW BEFORE NEXT MEETING!

  • Draft SCG (v2.4) - Compositional Grammar - Specification and Guide
      • 1. Introduction → History
      • 3.2 Representation of clinical Meanings → Requirement M4
      • 4. Logical Model
      • 4.1 Details
      • 5.1 Normative Specification
      • 5.2 Informative Comments
      • 6.6 Examples → Expressions with Concrete Values
  • Draft ECL (v1.4) - Expression Constraint Language - Specification and Guide
      • 1. Introduction → History
      • 3.2 Expression Constraint and Query Requirements
      • 3.3 Concept Model Requirements
      • 4. Logical Model
      • 4.1 Details
      • 5.1 Brief Syntax (Normative)
      • 5.2 Long Syntax (Informative)
      • 5.3 Informative Comments
      • 6.2 Refinements
  • Draft STS/ETL (v1.1) - Template Syntax Specification
      • 1. Introduction → History
      • 4. Logical Model
      • 4.1 UML Class Diagram
      • 5.1 Normative Specification (boolean changes in blue / other proposed changes in red)
      • 5.2 Informative Comments (only boolean changes made)
      • 6.1 Expression Template Language
      • 8.2 Typed Replacement Slots → Concrete Values
      • 8.3 Constrained Replacement Slots → Value List Constraints? (currently unchanged)
URIs

PLEASE REVIEW BEFORE NEXT MEETING!

Draft URI standard for review - URI Standard

  • 2.1 URIs for Editions and Versions (formatting and examples only)
  • 2.2 URIs for Components and Reference Set Members (formatting and examples only)
  • 2.3 Version-Relative Component URIs (formatting and examples only)
  • 2.4 URIs for Modules (formatting and examples only)
  • 2.5 URIs for Properties (formatting and examples only)
  • 2.6 URIs for Language Syntaxes
  • 2.7 URIs for Language Instances
  • 2.8 URIs for Modelling Resources
  • 3.1 Resolving SNOMED CT URIs

Expression Templates

  • Any updates?
  • 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:

 [[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

  1. Generate the parser from the ABNF and implement in the Template Service
  2. User Interface to a) allow users to specify template at runtime b) tabular (auto-completion) lookup → STL
  3. Template Service to allow multiple templates to be specified for alignment check (aligns to none-off)
  4. 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 TemplatesKai Kewley
  • Any updates?
  • 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
Expression Constraint Language

STILL TO DO:

  • Agreement in Malaysia - ECL will add the following term searching syntax (no regex - just wild card and word prefix any order):

{{ term  =  [ termSearchType : ] "String", languageCode = [langCode] }}

Term Search Type

    1. Wild Card Match (collation) - e.g.
      • {{  term = wild:"*heart*“ }}
      • {{  term = wild (sv):"*hjärta*“ }}
    1. Word Prefix Any Order - e.g.
      • {{ term = match:“hear att” }}
    1. Default (word prefix any order) - e.g.
      • {{ term = "hear att" }}
      • {{ term = "*heart*“ }}

Potential Examples

    • << 64572001 |Disease| {{ term = “heart”}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} AND << 64572001 |Disease| {{ term = “hjärta”, languageCode = "sv"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} {{ term = “hjärta”, languageCode = "sv"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} OR << 64572001 |Disease| {{ term = “hjärta", languageCode = "sv"}}
    • << 64572001 |Disease| {{ (term = “heart”, languageCode = "en") OR (term = “hjärta", languageCode = "sv")}}
    • (<< 64572001 |Disease|: |Associated morphology| = *) {{ term = “heart”, languageCode = "en", }} {{ term = “hjärta", languageCode = "sv"}}
    • (<< 64572001 |Disease| {{ term = “*cardio*” }}) MINUS (<< 64572001 |Disease| {{ term != “*heart*” }})
    • Recommendation to be made on (based on investigation of grammar):
      • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} AND {{ term = “hjärta”, languageCode = "sv"}}
      • << 64572001 |Disease| ( {{ term = “heart”, languageCode = "en"}} OR {{ term = “hjärta”, languageCode = "sv"}} )
      • << 64572001 |Disease| ( {{ term = “heart”, languageCode = "en"}} MINUS {{ term = “hjärta”, languageCode = "sv"}} )

Use Cases

    • Intentionally define a reference set for chronic disease. Starting point was ECL with modelling; This misses concepts modelled using the pattern you would expect. So important in building out that reference set.
    • Authors quality assuring names of concepts
    • Checking translations, retranslating. Queries for a concept that has one word in Swedish, another word in English
    • AU use case would have at most 3 or 4 words in match
    • Consistency of implementation in different terminology services
    • Authoring use cases currently supported by description templates
    • A set of the "*ectomy"s and "*itis"s

Questions

    • Do we include 'typeId' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, typeId =  900000000000013009 |Synonym| }}
      • NO
    • Do we include 'type' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, D.type synonym }}
      • NO
    • Do we include 'languageCode' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, D.type synonym, D.languageCode = “en” }}
      • YES
    • Do we include 'caseSignificanceId' - e.g. << 64572001 |Disease| {{ D.term = “*Heart*”, D.caseSignificanceId = 900000000000017005 |case sensitive|}}
      • NO
    • Do we include 'caseSignificance' - e.g. << 64572001 |Disease| {{ D.term = “*Heart*”, D.caseSignificance = sensitive }}
      • NO
    • Do we include 'language' and 'version' - e.g. << 64572001 |Disease| {{ term = “*heart*” }} VERSION = http://…, LANGUAGE = (999001881000000108|Gastro LRS|, |GB English|)
      • NO
    • Do we include syntactic sugar - e.g.
      • << 64572001 |Disease| {{ preferredTerm = “*heart*”, languageRefSet = en-gb}}
      • << 64572001 |Disease| {{ fullySpecifiedTerm = “*heart*”, languageRefSet=en-gb}}
      • << 64572001 |Disease| {{ acceptableTerm = “*heart*”, languageRefSet = en-gb}}
      • << 64572001 |Disease| {{ preferredTerm = “*heart*”}} FROM  version = X, language = Y
      • NO
    • Do we use/require the "D" at the start of "term"?
      • NO
    • Packaging - How do we package this extension to ECL
      • A new version of ECL - version 1.5
Querying Refset Attributes

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
    • ? 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| = *)
Reverse Member ofAll

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
Returning attributesMichael Lawley

Proposal from Michael:

  • 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|)
Query Language
- Summary from previous meetings




Examples: version and dialect

Notes

    • Allow nested where, version, language
    • Scope of variables is inner query





Examples: where

Notes

      • Allow nested variable definitions, but recommend that people don't due to readability
      • Scope of variables is the inner query
      • No recursion e.g X WHERE X = 1234 MINUS X
        • ie can't use a variable in its own definition
        • ie X is only known on the left of the corresponding WHERE, and not on the right of the WHERE

Keywords for Term-based searching:

  • D.term
    • D.term = "*heart*"
    • D.term = wild:"*heart*"
    • D.term = regex:".*heart.*"
    • D.term = match:"hear att"
    • D.term = (sv) wild: "*heart*"
  • D.languageCode
    • D.languageCode = "en"
    • D.languageCode = "es"
  • D.caseSignificanceId
    • D.caseSignificanceId = 900000000000448009 |entire term case insensitive|
    • D.caseSignificanceId = 900000000000017005 |entire term case sensitive|
    • D.caseSignificanceId = 900000000000020002 |only initial character case insensitive|
  • D.caseSignificance
    • D.caseSignificance = "insensitive"
    • D.caseSignificance = "sensitive"
    • D.caseSignificance = "initialCharInsensitive"
  • D.typeId
    • D.typeId = 900000000000003001 |fully specified name|
    • D.typeId = 900000000000013009 |synonym|
    • D.typeId = 900000000000550004 |definition|
  • D.type
    • D.type = "FSN"
    • D.type = "fullySpecifiedName"
    • D.type = "synonym"
    • D.type = "textDefinition"
  • D.acceptabilityId
    • D.acceptabilityId = 900000000000549004 |acceptable|
    • D.acceptabilityId = 900000000000548007 |preferred|
  • D.acceptability
    • D.acceptability = "acceptable"
    • D.acceptability = "preferred"

Additional Syntactic Sugar

  • FSN
    • FSN = "*heart"
      • D.term = "*heart", D.type = "FSN"
      • D.term = "*heart", D.typeId = 900000000000003001 |fully specified name|
    • FSN = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "FSN", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000003001 |fully specified name|, acceptabilityId = * LANGUAGE X
  • synonym
    • synonym = "*heart"
      • D.term = "*heart", D.type = "synonym"
      • D.term = "*heart", D.typeId = 900000000000013009 |synonym|
    • synonym = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "synonym", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000013009 |synonym|, (D.acceptabilityId = 900000000000549004 |acceptable| OR D.acceptabilityId = 900000000000548007 |preferred|) LANGUAGE X
  • synonymOrFSN
    • synonymOrFSN = "*heart"
      • synonym = "*heart" OR FSN = "*heart"
      • D.term = "*heart", (D.type = "synonym" OR D.type = "fullySpecifiedName")
    • synonymOrFSN = "*heart" LANGUAGE X
      • synonym = "*heart" OR FSN = "*heart" LANGUAGE X
      • D.term = "*heart", (D.type = "synonym" OR D.type = "fullySpecifiedName"), D.acceptability = * LANGUAGE X
  • textDefinition
    • textDefinition = "*heart"
      • D.term = "*heart", D.type = "definition"
      • D.term = "*heart", D.typeId = 900000000000550004 |definition|
    • textDefinition = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "definition", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000550004 |definition|, D.acceptabilityId = * LANGUAGE X
  • Unacceptable Terms
    • (D.term = "*heart") MINUS (D.term = "*heart", D.acceptability = * LANGUAGE X)

Language preferences using multiple language reference sets

  • LRSs that use the same Language tend to use 'Addition' - i.e. child LRS only includes additional acceptable terms, but can override the preferred term

    • E.g. Regional LRS that adds local dialect to a National LRS

    • E.g. Specialty-specific LRS

    • E.g. Irish LRS that adds local preferences to the en-GB LRS

      • 99999900 |Irish language reference set| PLUS |GB English reference set|

  • LRSs that define a translation to a different language tend to use 'Replacement' - i.e. child LRS replaces set of acceptable and preferred terms for any associated concept

    • E.g. Danish LRS that does a partial translation of the International Release

      • 999999 |Danish language reference set| ELSE |GB English reference set|

Next steps
  • Discuss and plan next steps
Confirm next meeting date/time




Date & Time

20:00 UTC Wednesday 6th November 2019

Location

Zoom meeting: https://snomed.zoom.us/j/471420169

Goals

  • To progress work on
    • URIs
    • Templates
    • ECL
    • Query language

Attendees 

Apologies

  •  

Agenda and Meeting Notes


Description
Owner
Notes

Welcome and agenda


URIs

Expression Templates

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:

 [[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

  1. Generate the parser from the ABNF and implement in the Template Service
  2. User Interface to a) allow users to specify template at runtime b) tabular (auto-completion) lookup → STL
  3. Template Service to allow multiple templates to be specified for alignment check (aligns to none-off)
  4. 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 TemplatesKai Kewley
  • Summary of discussions 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
Expression Constraint Language
  • Agreement in Malaysia - ECL will add the following term searching syntax (no regex - just wild card and word prefix any order):

{{ term  =  [ termSearchType : ] "String", languageCode = [langCode] }}

Term Search Type

    1. Wild Card Match (collation) - e.g.
      • {{  term = wild:"*heart*“ }}
      • {{  term = wild (sv):"*hjärta*“ }}
    1. Word Prefix Any Order - e.g.
      • {{ term = match:“hear att” }}
    1. Default (word prefix any order) - e.g.
      • {{ term = "hear att" }}
      • {{ term = "*heart*“ }}

Potential Examples

    • << 64572001 |Disease| {{ term = “heart”}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} AND << 64572001 |Disease| {{ term = “hjärta”, languageCode = "sv"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} {{ term = “hjärta”, languageCode = "sv"}}
    • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} OR << 64572001 |Disease| {{ term = “hjärta", languageCode = "sv"}}
    • << 64572001 |Disease| {{ (term = “heart”, languageCode = "en") OR (term = “hjärta", languageCode = "sv")}}
    • (<< 64572001 |Disease|: |Associated morphology| = *) {{ term = “heart”, languageCode = "en", }} {{ term = “hjärta", languageCode = "sv"}}
    • (<< 64572001 |Disease| {{ term = “*cardio*” }}) MINUS (<< 64572001 |Disease| {{ term != “*heart*” }})
    • Recommendation to be made on (based on investigation of grammar):
      • << 64572001 |Disease| {{ term = “heart”, languageCode = "en"}} AND {{ term = “hjärta”, languageCode = "sv"}}
      • << 64572001 |Disease| ( {{ term = “heart”, languageCode = "en"}} OR {{ term = “hjärta”, languageCode = "sv"}} )
      • << 64572001 |Disease| ( {{ term = “heart”, languageCode = "en"}} MINUS {{ term = “hjärta”, languageCode = "sv"}} )

Use Cases

    • Intentionally define a reference set for chronic disease. Starting point was ECL with modelling; This misses concepts modelled using the pattern you would expect. So important in building out that reference set.
    • Authors quality assuring names of concepts
    • Checking translations, retranslating. Queries for a concept that has one word in Swedish, another word in English
    • AU use case would have at most 3 or 4 words in match
    • Consistency of implementation in different terminology services
    • Authoring use cases currently supported by description templates
    • A set of the "*ectomy"s and "*itis"s

Questions

    • Do we include 'typeId' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, typeId =  900000000000013009 |Synonym| }}
      • NO
    • Do we include 'type' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, D.type synonym }}
      • NO
    • Do we include 'languageCode' - e.g. << 64572001 |Disease| {{ D.term = “*heart*”, D.type synonym, D.languageCode = “en” }}
      • YES
    • Do we include 'caseSignificanceId' - e.g. << 64572001 |Disease| {{ D.term = “*Heart*”, D.caseSignificanceId = 900000000000017005 |case sensitive|}}
      • NO
    • Do we include 'caseSignificance' - e.g. << 64572001 |Disease| {{ D.term = “*Heart*”, D.caseSignificance = sensitive }}
      • NO
    • Do we include 'language' and 'version' - e.g. << 64572001 |Disease| {{ term = “*heart*” }} VERSION = http://…, LANGUAGE = (999001881000000108|Gastro LRS|, |GB English|)
      • NO
    • Do we include syntactic sugar - e.g.
      • << 64572001 |Disease| {{ preferredTerm = “*heart*”, languageRefSet = en-gb}}
      • << 64572001 |Disease| {{ fullySpecifiedTerm = “*heart*”, languageRefSet=en-gb}}
      • << 64572001 |Disease| {{ acceptableTerm = “*heart*”, languageRefSet = en-gb}}
      • << 64572001 |Disease| {{ preferredTerm = “*heart*”}} FROM  version = X, language = Y
      • NO
    • Do we use/require the "D" at the start of "term"?
      • NO
    • Packaging - How do we package this extension to ECL
      • A new version of ECL - version 1.5
Maps and History

Recap discussions in Malaysia regarding querying historical patient records - e.g Find all patients with a respiratory disease in the last 10 years. Do we include patients whose records contain |Recurrent chest infection|? (an inactive concept)

Solutions suggested include:

  1. Multiple queries

    Reverse memberOf function

    • What refsets is a concept a member of?
  2. Use historical associations - either create map from inactive to active concepts, or update EHR to replace inactive concepts with active ones
  3. Look at the latest snapshot before the concept is inactivated
  4. Multiple queries run against successive releases of SNOMED CT with results collated
  5. Update the EHRs to the latest concept using historical associations
  6. Create an enhanced transitive closure table containing inactive concepts as their last known position
  7. Augmented solution checks the position of replacement to determine concepts inacctivated due to wrong placement

Proposed syntax to support execution of maps (Outstanding question: ECL or Query Language? Scope and packaging needs further discussion)

  • Example use cases
    • Mapping from international substance concepts to AMT substance concepts
    • Anatomy structure and part association reference set - e.g. find the anatomical parts of a given structure
  • Potential syntax to consider
    • Functional
      • mapTarget (|Anatomy structure and part association refset|, << |Upper abdomen structure|)
        • Return the map targets from the given map refset. where the referencedComponent matches the condition
      • mapSource (|Anatomy structure and part association refset|, << |Liver part|)
        • Return the referencedComponent from the given map refset, where the targetId matches the condition.
    • Dot notation + Attribute refinement
      • |Anatomy structure and part association refset| . |mapTarget|
      • |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 ) . |mapTarget|
      • ( |Anatomy structure and part association refset|: |mapTarget| = << |Upper abdomen structure ) . |referencedComponent|
    • Dot notation + Filters
      • ( |Anatomy structure and part association refset| {{ |referencedComponent| = << |Upper abdomen structure| }} ). |mapTarget|
      • ( |Anatomy structure and part association refset| {{ mapTarget = << |Upper abdomen structure| }} ) . |referencedComponent|
        • ^ ( |Anatomy structure and part association refset| {{ mapTarget = << |Upper abdomen structure| }} )
    • Specify value to be returned
      • ?|mapTarget|? |Anatomy structure and part association refset|
      • ?|mapTarget|? |Anatomy structure and part association refset| {{ |referencedComponent| = << |Upper abdomen structure| }}
      • ?|mapTarget|? |Anatomy structure and part association refset| : |referencedComponent| = << |Upper abdomen structure|
  • Reverse memberOf function

    • What refsets is a concept a member of?
Returning attributesMichael Lawley

Proposal from Michael:

  • 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|)
Query Language
- Summary from previous meetings




Examples: version and language

Notes

    • Allow nested where, version, language
    • Scope of variables is inner query





Examples: where

Notes

      • Allow nested variable definitions, but recommend that people don't due to readability
      • Scope of variables is the inner query
      • No recursion e.g X WHERE X = 1234 MINUS X
        • ie can't use a variable in its own definition
        • ie X is only known on the left of the corresponding WHERE, and not on the right of the WHERE

Keywords for Term-based searching:

  • D.term
    • D.term = "*heart*"
    • D.term = wild:"*heart*"
    • D.term = regex:".*heart.*"
    • D.term = match:"hear att"
    • D.term = (sv) wild: "*heart*"
  • D.languageCode
    • D.languageCode = "en"
    • D.languageCode = "es"
  • D.caseSignificanceId
    • D.caseSignificanceId = 900000000000448009 |entire term case insensitive|
    • D.caseSignificanceId = 900000000000017005 |entire term case sensitive|
    • D.caseSignificanceId = 900000000000020002 |only initial character case insensitive|
  • D.caseSignificance
    • D.caseSignificance = "insensitive"
    • D.caseSignificance = "sensitive"
    • D.caseSignificance = "initialCharInsensitive"
  • D.typeId
    • D.typeId = 900000000000003001 |fully specified name|
    • D.typeId = 900000000000013009 |synonym|
    • D.typeId = 900000000000550004 |definition|
  • D.type
    • D.type = "FSN"
    • D.type = "fullySpecifiedName"
    • D.type = "synonym"
    • D.type = "textDefinition"
  • D.acceptabilityId
    • D.acceptabilityId = 900000000000549004 |acceptable|
    • D.acceptabilityId = 900000000000548007 |preferred|
  • D.acceptability
    • D.acceptability = "acceptable"
    • D.acceptability = "preferred"

Additional Syntactic Sugar

  • FSN
    • FSN = "*heart"
      • D.term = "*heart", D.type = "FSN"
      • D.term = "*heart", D.typeId = 900000000000003001 |fully specified name|
    • FSN = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "FSN", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000003001 |fully specified name|, acceptabilityId = * LANGUAGE X
  • synonym
    • synonym = "*heart"
      • D.term = "*heart", D.type = "synonym"
      • D.term = "*heart", D.typeId = 900000000000013009 |synonym|
    • synonym = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "synonym", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000013009 |synonym|, (D.acceptabilityId = 900000000000549004 |acceptable| OR D.acceptabilityId = 900000000000548007 |preferred|) LANGUAGE X
  • synonymOrFSN
    • synonymOrFSN = "*heart"
      • synonym = "*heart" OR FSN = "*heart"
      • D.term = "*heart", (D.type = "synonym" OR D.type = "fullySpecifiedName")
    • synonymOrFSN = "*heart" LANGUAGE X
      • synonym = "*heart" OR FSN = "*heart" LANGUAGE X
      • D.term = "*heart", (D.type = "synonym" OR D.type = "fullySpecifiedName"), D.acceptability = * LANGUAGE X
  • textDefinition
    • textDefinition = "*heart"
      • D.term = "*heart", D.type = "definition"
      • D.term = "*heart", D.typeId = 900000000000550004 |definition|
    • textDefinition = "*heart" LANGUAGE X
      • D.term = "*heart", D.type = "definition", D.acceptability = * LANGUAGE X
      • D.term = "*heart", D.typeId = 900000000000550004 |definition|, D.acceptabilityId = * LANGUAGE X
  • Unacceptable Terms
    • (D.term = "*heart") MINUS (D.term = "*heart", D.acceptability = * LANGUAGE X)

Language preferences using multiple language reference sets

  • LRSs that use the same Language tend to use 'Addition' - i.e. child LRS only includes additional acceptable terms, but can override the preferred term

    • E.g. Regional LRS that adds local dialect to a National LRS

    • E.g. Specialty-specific LRS

    • E.g. Irish LRS that adds local preferences to the en-GB LRS

      • 99999900 |Irish language reference set| PLUS |GB English reference set|

  • LRSs that define a translation to a different language tend to use 'Replacement' - i.e. child LRS replaces set of acceptable and preferred terms for any associated concept

    • E.g. Danish LRS that does a partial translation of the International Release

      • 999999 |Danish language reference set| ELSE |GB English reference set|

Next steps
  • Discuss and plan next steps
Confirm next meeting date/time