FHIR:Vprepub-1.0 FHIR Profiling Guidelines STU3: verschil tussen versies

Uit informatiestandaarden
Ga naar: navigatie, zoeken
(Associating functional definition to StructureDefinition)
(MM-1752: Add guidance on identity of examples and fixtures)
 
(73 tussenliggende versies door 5 gebruikers niet weergegeven)
Regel 1: Regel 1:
 +
__NOINDEX__
 +
{{DISPLAYTITLE:FHIR Profiling Guidelines}}
 
==Introduction==
 
==Introduction==
  
[http://hl7.org/fhir FHIR] requires [http://hl7.org/fhir/profiling.html profiling]. To do profiling in a comparable way we need conventions. This page lays out these conventions.
+
[http://hl7.org/fhir FHIR] requires [http://hl7.org/fhir/profiling.html profiling]. To do profiling in a comparable way we need conventions. This page lays out these conventions.
 +
 
 +
The created profiles are generally based on the [https://zibs.nl/wiki/HCIM_Mainpage| Health and Care Information models (HCIM)] defined by the program ‘Registratie aan de bron’ (Data capture at the point of Care) for the Netherlands. In the Netherlands, these models are more commonly known by the name zorginformatiebouwstenen or ZIB's. In this text, we make use of the HCIM abbreviation. The section [https://informatiestandaarden.nictiz.nl/wiki/FHIR_Profiling_Guidelines#Associating_functional_definition_to_StructureDefinition Associating functional definition to StructureDefinition] provides more information regarding these information models.
  
 
==Canonical URL==
 
==Canonical URL==
  
Any conformance resource needs a canonical URL. This preferably leads somewhere but does not have to be processable. For Nictiz profiles we SHALL use the following structure:
+
Any conformance resource needs a canonical URL. This preferably leads somewhere but does not have to be processable. Canonical URL's are about the ''identity'' of artifacts, not necessarily about retrieval location. URIs for the latter (for artifacts living in ART-DECOR) are described in [https://www.art-decor.org/mediawiki/index.php?title=FHIR_URIs ART-DECOR FHIR_URIs]. 
 +
 
 +
For Nictiz profiles we SHALL use the following structure:
  
http://<nowiki>[</nowiki>domain<nowiki>]</nowiki>/fhir/<nowiki>[</nowiki>ConformanceResource<nowiki>]</nowiki>/<nowiki>[</nowiki>project<nowiki>]</nowiki>-<nowiki>[</nowiki>name<nowiki>]</nowiki>-<nowiki>[</nowiki>[http://semver.org semver.major]<nowiki>]</nowiki>
+
*For profiles:
 +
**that are [http://zibs.nl HCIM] related (this should be the majority of profiles):<br/><code>http://[domain]/fhir/StructureDefinition/zib-[English HCIM name]</code>
 +
**standard specific:<br/><code>http://[domain]/fhir/StructureDefinition/[project]-[name]</code>
 +
*For extensions:
 +
**pertaining to 1 HCIM:<br/><code>http://[domain]/fhir/StructureDefinition/zib-[English HCIM name]-[English HCIM concept name]</code>
 +
**not pertaining to HCIMs, and standard specific:<br/><code>http://[domain]/fhir/StructureDefinition/[project]-[name]</code>
 +
**pertaining to multiple HCIMs, or not pertaining to HCIMs and generally applicable:
 +
***if the use context is a single resource:<br/><code>http://[domain]/fhir/StructureDefinition/[resource]-[purpose]</code>
 +
***otherwise:<br/><code>http://[domain]/fhir/StructureDefinition/[purpose]</code>
 +
*For value sets related to HCIMs:<br/><code><nowiki>http://decor.nictiz.nl/fhir/ValueSet/[value set OID]--[effective date as yyyymmddhhmmss]</nowiki></code>
  
 
Where:
 
Where:
* <nowiki>[</nowiki>domain<nowiki>]</nowiki> is "nictiz.nl"
+
* <nowiki>[domain]</nowiki> is "nictiz.nl"
* <nowiki>[</nowiki>ConformanceResource<nowiki>]</nowiki> is usually "StructureDefinition" or "ValueSet"
+
* <nowiki>[project]</nowiki> is preferably the same as its matching [http://decor.nictiz.nl/art-decor/ ART-DECOR] project prefix
* <nowiki>[</nowiki>project<nowiki>]</nowiki> is preferably the same as its matching [http://decor.nictiz.nl/art-decor/ ART-DECOR] project prefix
+
* <nowiki>[purpose]</nowiki> is generally a camelCased name starting with a lowercase letter
* <nowiki>[</nowiki>name<nowiki>]</nowiki> is the name that best depicts the purpose of the Conformance Resource
+
 
* <nowiki>[</nowiki>semver.major<nowiki>]</nowiki> is the version of the Conformance Resources. Of the 3 parts in a semantical version a.k.a. semver can contain we SHALL only use the major version
+
This convention aligns with international initiatives such as DAF and QiCore and has been confirmed/advised by Grahame Grieve.
 +
 
 +
==Versioning intro==
 +
 
 +
The HL7® FHIR® specification specifies a lot of things related to versions. This text aims to stay aligned with the latest insights. Readers should first get acquainted with the core FHIR specification before reading here: http://hl7.org/fhir/versions.html
 +
 
 +
===Versions of the profiles===
 +
 
 +
Versions of the profiles may occur for any of the following reasons:
 +
 
 +
*New releases of the underlying HCIMs are normally followed by an update to the representing profiles
 +
*Identified issues in existing profiles may require an update
 +
*HL7® FHIR® updates may lead to an update of the profiles. We do ''not'' automatically follow every FHIR version as it is released
 +
 
 +
Version updates first and foremost affects the <code>version</code> element found in all conformance resources (profiles, value sets, extensions, search parameter, operation definition etc.). The update normally does not affect the canonical URI of the conformance resource. Conformance resources create a web of interrelated artifacts. Any resource that references another resource, e.g. Patient referencing Practitioner for the general practitioner, normally does so without a version indicator (uri|version). This means that any reference points dynamically to 'the latest version' of the artifact. If you were to build a consistent set of versions you would need to add the version to any reference in the set of conformance resources and update the full set after any updating any particular part.
 +
 
 +
Around the advent of FHIR R4, the follow up of STU3, there will be a new versioning layer that allows packaging of profiles into a consistent set without affecting the profiles itself. The packaging mechanism will be tested in May 2018, and should greatly simplify specification and implementation of versions.
  
This convention aligns with international initiatives such as DAF and QiCore and has been confirmed/advised by Grahame Grieve
+
[[Bestand:Profiles-versioned-or-packaged.png|800px|Profiles with versioned references vs Packaged versions of profiles]]
  
==Versioning==
+
===Versions in instances===
  
Breaking changes constitute a new conformance resource with a new canonical URL. A breaking change is any change that breaks conformance of instances by adding new required contents, removing previously required contents, making previously required contents optional, changing the terminology bindings contents in a incompatible way like removing codes or changing code systems.
+
To understand how instances of resources are interpreted by a receiving server we should look at two things:
  
Minor changes like adding additional textual guidance, extending value sets without changing semantics are reflected in the StructureDefinition.version, ValueSet.version, OperationDefinition.version etc. The *.version therefor SHALL consist of major.minor version where major matches that of the canonical URL.
+
*The indicator for the profile that the sender added to the instance (if any). This indicator would be in the <code>Resource.meta.profile</code> element and may include a version, e.g.<br/><nowiki><profile value="http://fhir.nl/fhir/StructureDefinition/nl-core-patient"/></nowiki>
 +
*The profile (versions) that the server defaults to in the absence of a profile indicator in the instance
  
Patches are most difficult of all. Patches are most of time also a breaking change. As per the rule of breaking changes this would constitute a new conformance resources and canonical URL. If context allows it, and that really depends on whether there is known group of stakeholders and their implementation status, you might agree on implementing the patch as a (well documented) minor version.
+
If the server does not support the profile (version) as indicated in the instance it may do any of the following things. See also the [http://hl7.org/fhir/versions.html#f-compat relevant section] in the FHIR specification.
 +
 
 +
#Try to support the instance based on what it can support. This may lead to ignoring any element it doesn't know, except for modifierElements. If modifier elements are encountered, the instance should be rejected
 +
#Reject the instance
 +
 
 +
Note: as specified in the core FHIR specification, the server SHALL use its CapabilityStatement to indicate its behavior around unsupported elements (ignore or reject)
  
 
==Associating functional definition to StructureDefinition==
 
==Associating functional definition to StructureDefinition==
  
Any StructureDefinition that profiles a Resource does so because there is some kind of logical definition ''dictating'' how. These functional definitions are known as Clinical Building Blocks, Health Information models or in Dutch ''Zorginformatiebouwstenen'' or ZIB's. Profiles SHALL have a traceable relationship with their functional counterpart(s).
+
Any StructureDefinition that profiles a Resource does so because there is some kind of logical definition ''dictating'' how. These functional definitions are known as Clinical Building Blocks, Health and Care Information Models or in Dutch ''Zorginformatiebouwstenen'' or zibs. Profiles SHALL have a traceable relationship with their functional counterpart(s).
  
 
The FHIR specification contains several solutions for this problem, [http://hl7.org/fhir/conceptmap.html ConceptMap] (>=STU1), [http://hl7-fhir.github.io/structuredefinition.html StructureMap] (>=STU3), [http://hl7.org/fhir/elementdefinition-definitions.html ElementDefinition.mapping]. Neither of these solutions are mature and cover our use case.
 
The FHIR specification contains several solutions for this problem, [http://hl7.org/fhir/conceptmap.html ConceptMap] (>=STU1), [http://hl7-fhir.github.io/structuredefinition.html StructureMap] (>=STU3), [http://hl7.org/fhir/elementdefinition-definitions.html ElementDefinition.mapping]. Neither of these solutions are mature and cover our use case.
  
* ConceptMap: works best for value sets and codes
+
* ConceptMap: works best for value sets and codes.
* StructureMap: overcomplicated and unclear how to apply and whether or not this has a future
+
* StructureMap: overcomplicated and unclear how to apply and whether or not this has a future.
* ElementDefinition.mapping: is a free text mapping ''inside'' the profile. This means we cannot add mappings to profiles from third parties without updating their resource
+
* ElementDefinition.mapping: is a free text mapping ''inside'' the profile. This means we cannot add mappings to profiles from third parties without updating their resource.
  
Proposed way forward:
+
===Current implementation===
  
# The functional definitions ''live'' in ART-DECOR and every concept in this functional definition has a versioned id
+
We use the mapping elements in profiles to map functional elements to resource elements. When slicing, the mapping is made on the ''content'' of the slice, not the slice itself (see also [[#Placing-Info]]).
 +
 
 +
Functional elements are referenced based on their mnemonic id in the HCIM, e.g. NL-CM:9.6.19936. The mapping shall resolve to the English page on zibs.nl:
 +
 
 +
    <mapping>
 +
        <identity value="hcim-medicationagreement-v1.0-2017EN" />
 +
        <uri value="https://zibs.nl/wiki/MedicationAgreement-v1.0(2017EN)" />
 +
        <name value="HCIM MedicationAgreement-v1.0(2017EN)" />
 +
    </mapping>
 +
 
 +
....
 +
 
 +
    <element id="MedicationRequest.extension:usageDuration">
 +
        <path value="MedicationRequest.extension" />
 +
        <mapping>
 +
            <identity value="hcim-medicationagreement-v1.0-2017EN" />
 +
            <map value="NL-CM:9.6.19936" />
 +
        </mapping>
 +
    </element>
 +
 
 +
===Proposed way forward===
 +
 
 +
# The functional definitions ''live'' in ART-DECOR and every concept in this functional definition has a versioned id.
 
# The technical FHIR profile elements we want to map to have an optional @id attribute, but according to [http://gforge.hl7.org/gf/project/fhir/tracker/?action=TrackerItemEdit&tracker_item_id=9843 Tracker#9843] it is a required item for profiles (StructureDefinition)
 
# The technical FHIR profile elements we want to map to have an optional @id attribute, but according to [http://gforge.hl7.org/gf/project/fhir/tracker/?action=TrackerItemEdit&tracker_item_id=9843 Tracker#9843] it is a required item for profiles (StructureDefinition)
 
# In our own profiles we can make sure we populate this Element/@id and associate the functional concept on id / id basis. We found that DAF Profiles populate these ids as well.
 
# In our own profiles we can make sure we populate this Element/@id and associate the functional concept on id / id basis. We found that DAF Profiles populate these ids as well.
 
#* Example: <element id="Patient:DAF-Patient.extension:race">...</element>
 
#* Example: <element id="Patient:DAF-Patient.extension:race">...</element>
# In profiles we reference from third parties that do not have this Element/@id populated we need less precise method. We will deal with that when we need to
+
#* Example: <element id="2.16.840.1.113883.3.1937.99.62.3.2.3--20110128000000">
 +
# In profiles we reference from third parties that do not have this Element/@id populated we need a less precise method. We will deal with that when we need to.
  
==Profile meta data==
+
==Practical guidelines==
 +
 
 +
===File names===
 +
* For profiles: ''<<the final part of the canonical URI>>''.xml
 +
* For valuesets: ''<<Valueset.name>>''-''<<Valueset.id>>''.xml
 +
 
 +
====Examples and fixtures====
 +
To ensure ensure consistency of examples and fixtures (example instances used for test/qualification purposes) the {{fhir|.id}} and file name are standardized in the following way:
 +
* For fixtures: <code>[profile id]-[3 character project prefix]-[unique string]</code>, capped to 64 characters. The <code>[project prefix]</code> is necessary to prevent the same id from being used by different projects in the same test environment. It is preferably the same as its matching ART-DECOR project prefix.
 +
* For examples: <code>[profile id]-{[3 character project prefix]-}[unique string]</code>, capped to 64 characters (the <code>[3 character project prefix]</code> is not needed for examples, but may be included to facilitate re-use of tools for both fixtures and examples).
 +
 
 +
===Profile meta data===
 
* URL: see above
 
* URL: see above
* Resource ID: n/a
+
* Resource ID: final part of the canonical URI
* Name: see above
+
* Name: final part of the canonical URI (without hyphens, capitalized)
* Description: An ''enter resource type'' resource as defined by the Dutch Clinical Building Building Block ''Zorginformatiebouwsteen naam'' ''version''
+
* Description:
* Version: ''as applicable to the profile, not the CBB it refers to''
+
** A(n) ''<<enter resource type>>'' resource as defined by the Dutch Health and Care Information models (Dutch: Zorginformatiebouwsteen or ZIB) ''<<Zorginformatiebouwsteen name>>'' ''<<version>>'' ''<<release>>''
* Publishing: ''publishing date'' (should find way to align across all CBB profiles)
+
** Followed by the 'Concept' section from the HCIM
 +
* Version: ''as applicable to the profile, not the HCIM it refers to''
 +
* Date: n/a
 
* Lifecycle status: ''as applicable'' (normally draft or active)
 
* Lifecycle status: ''as applicable'' (normally draft or active)
 
* Experimental: normally '''false''' or null
 
* Experimental: normally '''false''' or null
* Display label: null
+
* Title: final part of the canonical URI (without hyphens, with 'zib' replaced by 'HCIM')
* Requirements: null (is already evident by the description)
+
* Purpose:
 +
** 'Purpose' section from HCIM
 +
** If needed: a discussion of where this profile fits in the workflow and why this resource was chosen (separated using a header in Markdown)
 
* Copyright: CC0
 
* Copyright: CC0
 
* Publisher: ''Nictiz''
 
* Publisher: ''Nictiz''
 
* Contact information: n/a
 
* Contact information: n/a
 
* Use context: n/a
 
* Use context: n/a
* Terminology codes: n/a
+
* Keywords: n/a
* Mappings: ''uri to the version of the CBB specification''<br/>&lt;mapping><br/>&#160;&#160;&#160;&#160;&lt;identity value="zib-patient"/><br/>&#160;&#160;&#160;&#160;&lt;uri value="https://zibs.nl/wiki/Contactpersoon(NL)"/><br/>&#160;&#160;&#160;&#160;&lt;name value="Zorginformatiebouwsteen Contactpersoon"/><br/>&lt;/mapping>
+
* Mappings: ''uri to the version of the HCIM specification'' (see [[#Associating_functional_definition_to_StructureDefinition]])<br/>&lt;mapping><br/>&#160;&#160;&#160;&#160;&lt;identity value="hcim-contactperson-v3.1-2017EN"/><br/>&#160;&#160;&#160;&#160;&lt;uri value="https://zibs.nl/wiki/ContactPerson-v3.1(2017EN)"/><br/>&#160;&#160;&#160;&#160;&lt;name value="HCIM ContactPerson-v3.1(2017EN)"/><br/>&lt;/mapping>
 
* Identifiers: n/a
 
* Identifiers: n/a
 
* Meta data: ''tbd''
 
* Meta data: ''tbd''
 
* Implicit rules (URI): n/a
 
* Implicit rules (URI): n/a
* Language: n/a (most content is en-US from the core, some is nl-NL from the CBBs)
+
* Language: n/a (most content is en-US from the core, some is nl-NL from the HCIMs)
 
* Kind: n/a (auto handled by Forge)
 
* Kind: n/a (auto handled by Forge)
* Constrained Type: n/a (auto handled by Forge based on selection at creation time)
+
* Type: n/a (auto handled by Forge based on selection at creation time)
 
* Abstract: '''false'''
 
* Abstract: '''false'''
* Base: n/a (auto handled by Forge based on selection at creation time)
+
* Base definition: n/a (auto handled by Forge based on selection at creation time)
* FHIR version: n/a (auto handled by Forge based on selection at creation time) - initially 1.0.2 DSTU2
+
* FHIR version: n/a (auto handled by Forge based on selection at creation time) - initially 3.0.1 STU3
  
==Miscellaneous==
+
===Mapping DefinitionCodes===
  
* We only profile elements, cardinalities and bindings that require profiling. We leave other elements, cardinalities and bindings as-is
+
Sometimes a FHIR element is equivalent to the HCIM concept (like a comment and a ''Resource.comment'' element), but if not, a code (usually SNOMED or LOINC) needs to be added to the FHIR profile to provide the proper definition. This is for example the case in Observation, where the root concept of the observation is unknown unless it is defined by the ''.code'' element, and where every ''.component'' needs to be defined by an individual ''.code'' element. Usually, the concepts for these elements are provided by the HCIMs (as DefinitionCode).
* For elements that map to Clinical Building Blocks (CBB) we copy the name from the CBB element into the profile element.name.
 
** For now we do not copy the description of the CBB elements into the profile. This is to avoid maintenance/synching problems. The CBB descriptions however shall be available at publication.
 
* For vocabulary bindings to CBB ValueSets we use binding strength "''[http://build.fhir.org/valueset-binding-strength.html extensible]''".
 
* For FHIR base resource elements with datatype ''code'' and binding ''required'' it may be that the CBB has other/additional codes to specialize the FHIR codes. To conform to FHIR and the CBB we will use the FHIR required element and binding and specify the mapping. We will use 1 extension to cover this use case.
 
** Extension URI [http://nictiz.nl/fhir/StructureDefinition/code-specification http://nictiz.nl/fhir/StructureDefinition/code-specification]
 
** The extension is of datatype CodeableConcept which also support text as fallback
 
** The extension receives its ValueSet binding in the context of the profile element and does not have a binding internally
 
** The extension is only required to be present when the extension actually holds a specialization, e.g. CRITH + fatal. It is optional when the mapping is ''equal''
 
** The mapping shall be documented in a ConceptMap
 
** Example AllergyIntolerance.criticality
 
  
 +
We map these DefinitionCodes from the HCIM onto the profile in an extendable way. If possible, we use a required slice for the DefinitionCode. In practice this will look like:
 
{| class="wikitable"
 
{| class="wikitable"
! FHIR !! CBB
 
 
|-
 
|-
| CRITL || low
+
! COLSPAN="4"| FHIR path                                !! Remark !! Cardinality
 
|-
 
|-
| CRITL || medium
+
| .code ||         ||                      ||          || || 1..1
 
|-
 
|-
| CRITH || high
+
|       || .coding ||                      ||          || sliced on ''value/code'' || 1..*
 
|-
 
|-
| CRITH || fatal
+
|       ||         || ''slice for concept'' ||          || named after the concept name || 1..1
 
|-
 
|-
| CRITU || -
+
|       ||         ||                      || .system  || code system from HCIM as ''fixedValue'' || 1..1
 
|-
 
|-
 +
|      ||        ||                      || .code    || code from HCIM as ''fixedValue'' || 1..1
 +
|-
 +
|      ||        ||                      || .display || display value defined in the code system as ''defaultValue'' || 0..1
 
|}
 
|}
 +
===Slicing definitions===
 +
====Choosing the discriminator====
 +
Defining the discriminator should be based on the most specific slice definition as possible while keeping a close eye on performance cost. Use patterns instead of a combination of fixed values to keep the discriminator logic simple. For example when slicing the Coding/CodeableCocept datatype: use a pattern slice if the code and system of a slice are fixed. If the slices are discriminated by different CodeSystems then a discriminator based on a fixed system is preferred over a ValueSet binding. Use the latter if multiple CodeSystems can be used within a slice definition. Try to avoid the discriminator type 'profile' as this is a very costly operation for a validator.
 +
 +
====Don't use nested slicing====
 +
In some cases, slicing in this way would mean to add slices within slices (e.a. Observation.component). This doesn't work too well in FHIR - for example, neither the Java nor the .Net validator can't handle this (at the moment) - so we don't use this mechanism. As an alternative, we can use a slicing discriminator based on pattern/code, and on each slice.code we can add a ''patternCodeableConcept'' with the required system and value. This has the same effect; at least that coding is required, but others may be added.
 +
 +
===Binding HCIM defined ValueSets===
 +
* the ValueSet can be obtained in FHIR 3.0 format from ART-DECOR (see [[#File_names]] for file naming conventions)
 +
* the reference URL can be obtained from the ''<<ValueSet.url>>'' element in this file
 +
* we use binding strength "''[http://build.fhir.org/valueset-binding-strength.html extensible]''".
 +
* the ''<<binding.description>>'' value is set to ''<<ValueSet.name>>''
 +
 +
===Binding of HCIM BasicElements to profiles===
 +
The [https://zibs.nl/wiki/BasicElements-v1.0(2017EN) BasicElements] were made explicit in HCIM Release 2017 and have been declared applicable to [https://zibs.nl/wiki/BasicElements-v1.0(2015EN) 2015] and [https://zibs.nl/wiki/BasicElements-v1.0(2016EN) 2016] in the zibs.nl wiki.
 +
 +
Initially, the profiles did not dedicate much attention to the BsasicElements as there was no clarity around how to interpret them. That clarity has [https://zibs.nl/wiki/BasicElements-v1.0(2017EN)#Concept since been added] but there is still room for interpretation:
 +
 +
{{NoteBox|All HCIM's implicitly contain a number of basic elements. These are usually not included in the information models of the individual building blocks but are supposed to be present.
 +
These are concepts that are of a more technical nature, often have little or no clinical relevance, but are necessary for the sake of clarity and readability of the information. In those cases where these elements are of clinical significance, they will usually be explicit in the information models. An example of this is an AGB number as an identification number for a health professional.}}
 +
 +
For some elements it's clear, e.g. the IdentificationNumber will always go to .identifier, and for other elements it is not, e.g. InformationSource. What would be the InformationSource for the resource Patient? When would a ContactPerson be a Subject in the current profiles, instance had of a Patient?)
 +
 +
The table outlines which mappings are clear and which are yet to be determined. As of the Spring release 2019 of MedMij, all BasicElement mappings have applied for as far as possible:
 +
 +
{| class="wikitable"
 +
!BasicElement!![http://hl7.org/fhir/STU3/w5.html Profiel element]!!Remark
 +
|-
 +
|NL-CM:0.0.1 HCIMRoot||-||not possible
 +
|-
 +
|NL-CM:0.0.6 IdentificationNumber ||.identifier||Overlaps sometimes with existing mapping such as HealthProfessionalIdentificationNumber or PatientIdentificationNumber. Unclear what to do with sub parts of an HCIM such as LabroatoryTest and Specimen. Presumably best to map to Observation.identifier and Specimen.identifier
 +
|-
 +
|NL-CM:0.0.2 InformationSource||.asserter||Mapped only when clinically relevant, e.g. AllergyIntolerance.asserter, Condition.asserter. What HCIM is this really applicable to?
 +
|-
 +
|NL-CM:0.0.3 PatientAsInformationSource::Patient||Patient||
 +
|-
 +
|NL-CM:0.0.4 HealthProfessional||Practitioner <nowiki>|</nowiki> PractitionerRole||
 +
|-
 +
|NL-CM:0.0.5 RelatedPersonAsInformationSource::ContactPerson||RelatedPerson|| 
 +
|-
 +
|NL-CM:0.0.7 Author||.author <nowiki>|</nowiki> .performer||FHIR resources do not all have RelatedPerson in its choice list, or even Patient. Example is [http://hl7.org/fhir/STU3/diagnosticreport.html DiagnosticReport]. Is it clinically relevant and/or reasonable to assume a Patient and/or RelatedPerson as possible author?|
 +
|-
 +
|NL-CM:0.0.8 PatientAsAuthor::Patient||Patient||
 +
|-
 +
|NL-CM:0.0.9 HealthProfessionalAsAuthor::HealthProfessional||Practitioner <nowiki>|</nowiki> PractitionerRole||
 +
|-
 +
|NL-CM:0.0.10 RelatedPersonAsAuthor::ContactPerson||RelatedPerson||
 +
|-
 +
|NL-CM:0.0.11 Subject||.subject <nowiki>|</nowiki> .patient||A RelatedPerson is never a Subject of care except possibly for a family anamnesis. Is it clinically relevant and/or reasonable to assume RelatedPerson as possible subject regardless?
 +
|-
 +
|NL-CM:0.0.12 Patient||Patient||
 +
|-
 +
|NL-CM:0.0.13 RelatedPersonAsSubject::ContactPerson||RelatedPerson ||
 +
|-
 +
|NL-CM:0.0.14 DateTime||.effective <nowiki>|</nowiki> .onset||Is this clinically relevant time to be assumed only on clinical HCIMs? So not on e.g. Patient, Practitioner, Organization?
 +
|}
 +
 +
===Miscellaneous===
 +
* We only profile elements, cardinalities and bindings that require profiling. We leave other elements, cardinalities and bindings as-is (see [[#Open_vs._Closed_Modeling]])
 +
* For elements that map to Health and Care Information Models (HCIM):
 +
** We copy the name from the HCIM element into the profile element.short (in elements that refer to other zibs, the name is built up like ''<<ElementName::ReferenceZibName>>'', but we only use the part before the double colons)
 +
** The HCIM concept description is placed in the profile element.definition
 +
** The HCIM Dutch concept name is placed in the profile element.alias
 +
** {{anchor|Placing-Info}}''Note: as a rule of thumb, we place this info 'as close as possible' to the elements that actually represent the data. For example: when slicing, the texts are placed on the slice content, not the slice itself. Similarly, in concept containers like Observation.component, this info is placed on the .valueXXX elements. This is also true for [[#Associating_functional_definition_to_StructureDefinition | the HCIM mappings]].''
 +
** Implementation guidance, such as mapping clarification and usage, of HCIM concepts that are mapped to multiple elements is given on the root of the resource. The [http://simplifier.net/resolve?fhirVersion=STU3&scope=nictiz.fhir.nl.stu3.zib2017@2.0.0&canonical=http://fhir.nl/fhir/StructureDefinition/nl-core-address nl-core-address profile] provides a good example.
 +
* Slices get an UpperCamelCased name based on the HCIM element name.
 +
* New elements defined through extensions get a lowerCamelCased name based on the HCIM element name.
 +
* When adding invariants we use "hcim-[hcim-name]-[number]"  as a key. Example: hcim-alert-1
 +
* [https://docs.google.com/document/d/1ClF3XpIrE2FiIDG7K7VD3pPjOPx3T950Sfi1Ip8ORcU/edit#heading=h.641auhfi9fvs FHIR URI Strategy] (draft document with potentially good info)
 +
* For FHIR base resource elements with datatype ''code'' and binding ''required'' it may be that the HCIM has other/additional codes to specialize the FHIR codes. To conform to FHIR and the HCIM:
 +
** We will document the mapping in a ConceptMap, which will be linked from the element .mapping comment.
 +
** We will use the extension [https://simplifier.net/resolve?canonical=http://nictiz.nl/fhir/StructureDefinition/code-specification http://nictiz.nl/fhir/StructureDefinition/code-specification]:
 +
*** The extension is of datatype CodeableConcept, which also supports text as a fallback. It is bound with strength "extensible" on the HCIM derived ValueSet in the profile where it is applied.
 +
*** The extension slice is named after the full English name of the code list according to the HCIM.
 +
*** Mapping from the HCIM concepts is applied to the .valueCodeableConcept.mapping in the extension (in addition to the .mapping in the FHIR element).
  
 
==Open vs. Closed Modeling==
 
==Open vs. Closed Modeling==
Regel 117: Regel 260:
 
- Model becomes more specific
 
- Model becomes more specific
  
- Model becomes smaller and more straight forward
+
- Model becomes smaller and more straightforward
  
 
- More implementer feedback, about elements they want to support, but currently can't
 
- More implementer feedback, about elements they want to support, but currently can't
Regel 127: Regel 270:
 
- Model becomes more vague,  
 
- Model becomes more vague,  
  
- Model becomes larger and less straight forward about what should actually be supported, and what can optionally be supported
+
- Model becomes larger and less straightforward about what should actually be supported, and what can optionally be supported
  
 
- Less implementer feedback: elements they want to send can be easier 'hacked' in a not yet explicitly specified element. Model won't be improved.
 
- Less implementer feedback: elements they want to send can be easier 'hacked' in a not yet explicitly specified element. Model won't be improved.
Regel 137: Regel 280:
 
- No forward compatibility, only backwards
 
- No forward compatibility, only backwards
  
- Implementers have to wait for a new version of the model, if they want to support elements, that are currenyly not in scope.
+
- Implementers have to wait for a new version of the model, if they want to support elements, that are currently not in scope.
 
|}
 
|}
 +
 +
We have chosen for "open" modeling for the HCIMs, since they are very general and not meant for one specific use case. Excluding unspecified elements here is not an option, since we expect derived profiles for more specific use cases that may need those elements.
  
 
==Cardinality/conformance mapping table==
 
==Cardinality/conformance mapping table==
Regel 148: Regel 293:
 
Reference: [http://hl7.org/fhir/elementdefinition-definitions.html#ElementDefinition.mustSupport ElementDefinition.mustSupport]
 
Reference: [http://hl7.org/fhir/elementdefinition-definitions.html#ElementDefinition.mustSupport ElementDefinition.mustSupport]
  
This poses a need for a mapping table from cardinality/conformance in CBBs (ZIBs) versus that in profiles.
+
This poses a need for a mapping table from cardinality/conformance in HCIMs versus that in profiles.
  
 
{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
! ART-DECOR / CBB
+
! Generic (HCIM) !! FHIR !! --- !! Specific application !! FHIR
! FHIR
 
 
|-
 
|-
| 0..1 || 0..1
+
| 0..1 || 0..1 || || 0..1 || 0..1
 
|-
 
|-
| 0..1 C || 0..1
+
| 0..1 C || 0..1 || || 0..1 C || 0..1
 
|-
 
|-
| 0..1 R || 0..1 mustSupport='true'
+
| 0..1 R || 0..1 || || 0..1 R || 0..1 - consider mustSupport='true'
 
|-
 
|-
| 0..* || 0..*
+
| 0..* || 0..* || || 0..* || 0..*
 
|-
 
|-
| 0..* C || 0..*
+
| 0..* C || 0..* || || 0..* C || 0..*
 
|-
 
|-
| 0..* R || 0..* mustSupport='true'
+
| 0..* R || 0..* || || 0..* R || 0..* - consider mustSupport='true'
 
|-
 
|-
| 1..1 || <span style="color: red;">'''0'''</span>..1
+
| 1..1 || <span style="color: red;">'''0'''</span>..1 || || 1..1 || <span style="color: red;">'''0'''</span>..1
 
|-
 
|-
| 1..1 C || <span style="color: red;">'''0'''</span>..1
+
| 1..1 C || <span style="color: red;">'''0'''</span>..1 || || 1..1 C || <span style="color: red;">'''0'''</span>..1
 
|-
 
|-
| 1..1 R || <span style="color: red;">'''0'''</span>..1 mustSupport='true'
+
| 1..1 R || <span style="color: red;">'''0'''</span>..1 || || 1..1 R || <span style="color: red;">'''0'''</span>..1 - consider mustSupport='true'
 
|-
 
|-
| 1..1 M || 1..1 mustSupport='true'
+
| 1..1 M || 1..1 || || 1..1 M || 1..1 - consider mustSupport='true'
 
|-
 
|-
| 1..* || <span style="color: red;">'''0'''</span>..*
+
| 1..* || <span style="color: red;">'''0'''</span>..* || || 1..* || <span style="color: red;">'''0'''</span>..*
 
|-
 
|-
| 1..* C || <span style="color: red;">'''0'''</span>..*
+
| 1..* C || <span style="color: red;">'''0'''</span>..* || || 1..* C || <span style="color: red;">'''0'''</span>..*
 
|-
 
|-
| 1..* R || <span style="color: red;">'''0'''</span>..* mustSupport='true'
+
| 1..* R || <span style="color: red;">'''0'''</span>..* || || 1..* R || <span style="color: red;">'''0'''</span>..* - consider mustSupport='true'
 
|-
 
|-
| 1..* M || 1..* mustSupport='true'
+
| 1..* M || 1..* || || 1..* M || 1..* - consider mustSupport='true'
 +
|}
 +
 
 +
mustSupport="true" has the consequence that any conformant instances based on this profile SHALL support this part of the profile in the way that is defined by the implementation guide that governs the profile. This is not possible to state for a generic profile that aims to support many more use cases/contexts than is possible to know from the perspective of the profile. If a specific context requires use of a certain part of the profile it MAY choose to specify a constraining profile on top of the generic profile to do just that.
 +
 
 +
==Constraining references==
 +
HCIMs might have have connections to other HCIMs. Example: a MedicationAgreement might have a [https://decor.nictiz.nl/art-decor/decor-datasets--mp-?id=2.16.840.1.113883.2.4.3.11.60.20.77.1.3&effectiveDate=2016-06-01T00%3A00%3A00&conceptId=2.16.840.1.113883.2.4.3.11.60.20.77.2.3.19835&conceptEffectiveDate=2015-11-24T08%3A40%3A47&language=nl-NL Prescriber] relationship defined using a HealthProfessional which is mapped to a FHIR MedicationRequest.requester as Reference(Practitioner). The [http://hl7.org/fhir/STU3/medicationrequest.html FHIR MedicationRequest] however, defines more types: Reference(Practitioner | PractitionerRole | Organization | Patient | RelatedPerson | Device). The closed world model would mandate that the profile only marks Practitioner for use. The open world model would mandate that the profile describes that for a HealthProfessional you need the Practitioner without omitting the other choices.
 +
 
 +
For general purpose profiles, suitable for further constraining we use open world profiling meaning that we do not constrain the choices of references into just the types that the HCIM requires. We only constrain the generic resource reference to the generic profile(s) for that resource. For Practitioner this would be the nl-core-practitioner. If deemed relevant a second layer of derived profile(s) could be created to tailor the generic profile for a specific use case using closed world modeling.
 +
 
 +
==Data type mapping table==
 +
 
 +
DECOR defines a set of data types. In most cases, the mapping to FHIR is straightforward, though there are a number of cases which are not as clear-cut. When defining extensions, or specifying the datatype of an Observation or Questionnaire.item in FHIR, a mapping to the relevant FHIR datatype needs to be done. The table below shows a mapping for datatypes in HCIMs versus those in profiles.
 +
 
 +
{| class="wikitable"
 +
|-
 +
! HCIM
 +
! ART-DECOR
 +
! FHIR
 +
! Remarks
 +
|-
 +
| INT || count || [https://www.hl7.org/fhir/STU3/datatypes.html#Count Count] or integer || Count in FHIR is derived from Quantity, this is appropriate for observations, such a a count of red blood cells in a specimen. Count in FHIR is a Quantity with system="http://unitsofmeasure.org" and code="1" (for units). If this is not appropriate, use integer.
 +
|-
 +
| BL || boolean || boolean ||
 +
|-
 +
| ED || blob || base64Binary ||
 +
|-
 +
| CD || code || CodeableConcept or coding or code || In general, CodeableConcept will be the right choice. See [http://hl7.org/fhir/terminologies.html Using Codes in Resources] for details.
 +
|-
 +
| ANY || complex || BackboneElement || 'complex' is data which is not further defined in DECOR, and thus cannot be translated.
 +
|-
 +
| - || currency || Money || Does not have a HCIM counterpart currenty. Theoretically this could be MO
 +
|-
 +
| - || date || date || Does not have a HCIM counterpart currently. Closest counterpart could be TS
 +
|-
 +
| TS || datetime || dateTime ||
 +
|-
 +
| - || decimal || decimal || Does not have a HCIM counterpart currently. Theoeratically this could be REAL
 +
|-
 +
| - || duration || Duration || Does not have a HCIM counterpart currently. Closest counterpart could be PQ
 +
|-
 +
| II || identifier || Identifier ||
 +
|-
 +
| CO || ordinal || CodeableConcept or coding or code || See [http://hl7.org/fhir/terminologies.html Using Codes in Resources] for details.
 +
|-
 +
| ST || string || string ||
 +
|-
 +
| - || ratio || Ratio || Does not have a HCIM counterpart currently. Closest counterpart could be RTO
 +
|-
 +
| - || text || string || Does not have a HCIM counterpart currently.
 +
|-
 +
| PQ || quantity || Quantity ||
 +
|}
 +
 
 +
==Translating DECOR to FHIR==
 +
Status: proposal
 +
 
 +
Quite often we will populate FHIR artifacts from DECOR artifacts. In such cases, FHIR identification must be derived from DECOR identification.
 +
 
 +
DECOR uses the attributes id and effectiveDate to identify concepts, datasets, transactions, valueSets and templates. The artifacts with the same id but different effectiveDates are subsequent versions of the same artifact (though artifacts can also get a new id for a new version, such as when a new dataset is derived from an older one).
 +
 
 +
In FHIR, every resource can have an id, which is the "logical id" of the resource. This id never changes once assigned, like DECOR id and effectiveDate. Resources usually have an URL too, which also identifies the resource, but should be resolvable. The URL can contain the id.
 +
 
 +
The following ART-DECOR artifacts map to FHIR artifacts:
 +
 
 +
{| class="wikitable"
 +
|-
 +
! DECOR artifact !! FHIR artifact || FHIR identifier system || Notes
 +
|-
 +
| concept || DataElement || http://art-decor.org/ns/oids/de || DataElement is a wrapper around a FHIR element (based on ElementDefinition). A FHIR element is not serializable independently, but is wrapped in a StructureDefinition or DataElement.
 +
|-
 +
| dataset<br/>transaction || Logical Model || http://art-decor.org/ns/oids/sd || A Logical Model is a StructureDefinition without base resource. FHIR uses this to capture user requirements.
 +
|-
 +
| valueSet || ValueSet || http://art-decor.org/ns/oids/vs ||
 +
|}
 +
 
 +
The following FHIR attributes are constructed in the following way, when generated from ART-DECOR. Non-digits are stripped from the timestamp in @effectiveDate because they violate the FHIR rules for id.
 +
 
 +
{| class="wikitable"
 +
|-
 +
! FHIR artifact !! derivation from DECOR
 +
|-
 +
| FHIR id || @id + '--' + @effectiveDate
 +
|-
 +
| FHIR identifier system || See above
 +
|-
 +
| FHIR identifier value ||  @id
 +
|-
 +
| FHIR version || @effectiveDate
 +
|-
 +
| FHIR status || See below
 +
|}
 +
 
 +
Status is translated from DECOR to FHIR:
 +
 
 +
{| class="wikitable"
 +
|-
 +
! DECOR status !! FHIR status
 +
|-
 +
| new || draft
 +
|-
 +
| draft || draft
 +
|-
 +
| pending || draft
 +
|-
 +
| active || active
 +
|-
 +
| review || draft
 +
|-
 +
| cancelled || retired
 +
|-
 +
| rejected || retired
 +
|-
 +
| deprecated || retired
 +
|+ default is 'draft'
 +
|}
  
  
 
[[Category:FHIR]]
 
[[Category:FHIR]]

Huidige versie van 30 mrt 2021 om 13:43


Introduction

FHIR requires profiling. To do profiling in a comparable way we need conventions. This page lays out these conventions.

The created profiles are generally based on the Health and Care Information models (HCIM) defined by the program ‘Registratie aan de bron’ (Data capture at the point of Care) for the Netherlands. In the Netherlands, these models are more commonly known by the name zorginformatiebouwstenen or ZIB's. In this text, we make use of the HCIM abbreviation. The section Associating functional definition to StructureDefinition provides more information regarding these information models.

Canonical URL

Any conformance resource needs a canonical URL. This preferably leads somewhere but does not have to be processable. Canonical URL's are about the identity of artifacts, not necessarily about retrieval location. URIs for the latter (for artifacts living in ART-DECOR) are described in ART-DECOR FHIR_URIs.

For Nictiz profiles we SHALL use the following structure:

  • For profiles:
    • that are HCIM related (this should be the majority of profiles):
      http://[domain]/fhir/StructureDefinition/zib-[English HCIM name]
    • standard specific:
      http://[domain]/fhir/StructureDefinition/[project]-[name]
  • For extensions:
    • pertaining to 1 HCIM:
      http://[domain]/fhir/StructureDefinition/zib-[English HCIM name]-[English HCIM concept name]
    • not pertaining to HCIMs, and standard specific:
      http://[domain]/fhir/StructureDefinition/[project]-[name]
    • pertaining to multiple HCIMs, or not pertaining to HCIMs and generally applicable:
      • if the use context is a single resource:
        http://[domain]/fhir/StructureDefinition/[resource]-[purpose]
      • otherwise:
        http://[domain]/fhir/StructureDefinition/[purpose]
  • For value sets related to HCIMs:
    http://decor.nictiz.nl/fhir/ValueSet/[value set OID]--[effective date as yyyymmddhhmmss]

Where:

  • [domain] is "nictiz.nl"
  • [project] is preferably the same as its matching ART-DECOR project prefix
  • [purpose] is generally a camelCased name starting with a lowercase letter

This convention aligns with international initiatives such as DAF and QiCore and has been confirmed/advised by Grahame Grieve.

Versioning intro

The HL7® FHIR® specification specifies a lot of things related to versions. This text aims to stay aligned with the latest insights. Readers should first get acquainted with the core FHIR specification before reading here: http://hl7.org/fhir/versions.html

Versions of the profiles

Versions of the profiles may occur for any of the following reasons:

  • New releases of the underlying HCIMs are normally followed by an update to the representing profiles
  • Identified issues in existing profiles may require an update
  • HL7® FHIR® updates may lead to an update of the profiles. We do not automatically follow every FHIR version as it is released

Version updates first and foremost affects the version element found in all conformance resources (profiles, value sets, extensions, search parameter, operation definition etc.). The update normally does not affect the canonical URI of the conformance resource. Conformance resources create a web of interrelated artifacts. Any resource that references another resource, e.g. Patient referencing Practitioner for the general practitioner, normally does so without a version indicator (uri|version). This means that any reference points dynamically to 'the latest version' of the artifact. If you were to build a consistent set of versions you would need to add the version to any reference in the set of conformance resources and update the full set after any updating any particular part.

Around the advent of FHIR R4, the follow up of STU3, there will be a new versioning layer that allows packaging of profiles into a consistent set without affecting the profiles itself. The packaging mechanism will be tested in May 2018, and should greatly simplify specification and implementation of versions.

Profiles with versioned references vs Packaged versions of profiles

Versions in instances

To understand how instances of resources are interpreted by a receiving server we should look at two things:

  • The indicator for the profile that the sender added to the instance (if any). This indicator would be in the Resource.meta.profile element and may include a version, e.g.
    <profile value="http://fhir.nl/fhir/StructureDefinition/nl-core-patient"/>
  • The profile (versions) that the server defaults to in the absence of a profile indicator in the instance

If the server does not support the profile (version) as indicated in the instance it may do any of the following things. See also the relevant section in the FHIR specification.

  1. Try to support the instance based on what it can support. This may lead to ignoring any element it doesn't know, except for modifierElements. If modifier elements are encountered, the instance should be rejected
  2. Reject the instance

Note: as specified in the core FHIR specification, the server SHALL use its CapabilityStatement to indicate its behavior around unsupported elements (ignore or reject)

Associating functional definition to StructureDefinition

Any StructureDefinition that profiles a Resource does so because there is some kind of logical definition dictating how. These functional definitions are known as Clinical Building Blocks, Health and Care Information Models or in Dutch Zorginformatiebouwstenen or zibs. Profiles SHALL have a traceable relationship with their functional counterpart(s).

The FHIR specification contains several solutions for this problem, ConceptMap (>=STU1), StructureMap (>=STU3), ElementDefinition.mapping. Neither of these solutions are mature and cover our use case.

  • ConceptMap: works best for value sets and codes.
  • StructureMap: overcomplicated and unclear how to apply and whether or not this has a future.
  • ElementDefinition.mapping: is a free text mapping inside the profile. This means we cannot add mappings to profiles from third parties without updating their resource.

Current implementation

We use the mapping elements in profiles to map functional elements to resource elements. When slicing, the mapping is made on the content of the slice, not the slice itself (see also #Placing-Info).

Functional elements are referenced based on their mnemonic id in the HCIM, e.g. NL-CM:9.6.19936. The mapping shall resolve to the English page on zibs.nl:

   <mapping>
       <identity value="hcim-medicationagreement-v1.0-2017EN" />
       <uri value="https://zibs.nl/wiki/MedicationAgreement-v1.0(2017EN)" />
       <name value="HCIM MedicationAgreement-v1.0(2017EN)" />
   </mapping>

....

   <element id="MedicationRequest.extension:usageDuration">
       <path value="MedicationRequest.extension" />
       <mapping>
           <identity value="hcim-medicationagreement-v1.0-2017EN" />
           <map value="NL-CM:9.6.19936" />
       </mapping>
   </element>

Proposed way forward

  1. The functional definitions live in ART-DECOR and every concept in this functional definition has a versioned id.
  2. The technical FHIR profile elements we want to map to have an optional @id attribute, but according to Tracker#9843 it is a required item for profiles (StructureDefinition)
  3. In our own profiles we can make sure we populate this Element/@id and associate the functional concept on id / id basis. We found that DAF Profiles populate these ids as well.
    • Example: <element id="Patient:DAF-Patient.extension:race">...</element>
    • Example: <element id="2.16.840.1.113883.3.1937.99.62.3.2.3--20110128000000">
  4. In profiles we reference from third parties that do not have this Element/@id populated we need a less precise method. We will deal with that when we need to.

Practical guidelines

File names

  • For profiles: <<the final part of the canonical URI>>.xml
  • For valuesets: <<Valueset.name>>-<<Valueset.id>>.xml

Examples and fixtures

To ensure ensure consistency of examples and fixtures (example instances used for test/qualification purposes) the .id and file name are standardized in the following way:

  • For fixtures: [profile id]-[3 character project prefix]-[unique string], capped to 64 characters. The [project prefix] is necessary to prevent the same id from being used by different projects in the same test environment. It is preferably the same as its matching ART-DECOR project prefix.
  • For examples: [profile id]-{[3 character project prefix]-}[unique string], capped to 64 characters (the [3 character project prefix] is not needed for examples, but may be included to facilitate re-use of tools for both fixtures and examples).

Profile meta data

  • URL: see above
  • Resource ID: final part of the canonical URI
  • Name: final part of the canonical URI (without hyphens, capitalized)
  • Description:
    • A(n) <<enter resource type>> resource as defined by the Dutch Health and Care Information models (Dutch: Zorginformatiebouwsteen or ZIB) <<Zorginformatiebouwsteen name>> <<version>> <<release>>
    • Followed by the 'Concept' section from the HCIM
  • Version: as applicable to the profile, not the HCIM it refers to
  • Date: n/a
  • Lifecycle status: as applicable (normally draft or active)
  • Experimental: normally false or null
  • Title: final part of the canonical URI (without hyphens, with 'zib' replaced by 'HCIM')
  • Purpose:
    • 'Purpose' section from HCIM
    • If needed: a discussion of where this profile fits in the workflow and why this resource was chosen (separated using a header in Markdown)
  • Copyright: CC0
  • Publisher: Nictiz
  • Contact information: n/a
  • Use context: n/a
  • Keywords: n/a
  • Mappings: uri to the version of the HCIM specification (see #Associating_functional_definition_to_StructureDefinition)
    <mapping>
        <identity value="hcim-contactperson-v3.1-2017EN"/>
        <uri value="https://zibs.nl/wiki/ContactPerson-v3.1(2017EN)"/>
        <name value="HCIM ContactPerson-v3.1(2017EN)"/>
    </mapping>
  • Identifiers: n/a
  • Meta data: tbd
  • Implicit rules (URI): n/a
  • Language: n/a (most content is en-US from the core, some is nl-NL from the HCIMs)
  • Kind: n/a (auto handled by Forge)
  • Type: n/a (auto handled by Forge based on selection at creation time)
  • Abstract: false
  • Base definition: n/a (auto handled by Forge based on selection at creation time)
  • FHIR version: n/a (auto handled by Forge based on selection at creation time) - initially 3.0.1 STU3

Mapping DefinitionCodes

Sometimes a FHIR element is equivalent to the HCIM concept (like a comment and a Resource.comment element), but if not, a code (usually SNOMED or LOINC) needs to be added to the FHIR profile to provide the proper definition. This is for example the case in Observation, where the root concept of the observation is unknown unless it is defined by the .code element, and where every .component needs to be defined by an individual .code element. Usually, the concepts for these elements are provided by the HCIMs (as DefinitionCode).

We map these DefinitionCodes from the HCIM onto the profile in an extendable way. If possible, we use a required slice for the DefinitionCode. In practice this will look like:

FHIR path Remark Cardinality
.code 1..1
.coding sliced on value/code 1..*
slice for concept named after the concept name 1..1
.system code system from HCIM as fixedValue 1..1
.code code from HCIM as fixedValue 1..1
.display display value defined in the code system as defaultValue 0..1

Slicing definitions

Choosing the discriminator

Defining the discriminator should be based on the most specific slice definition as possible while keeping a close eye on performance cost. Use patterns instead of a combination of fixed values to keep the discriminator logic simple. For example when slicing the Coding/CodeableCocept datatype: use a pattern slice if the code and system of a slice are fixed. If the slices are discriminated by different CodeSystems then a discriminator based on a fixed system is preferred over a ValueSet binding. Use the latter if multiple CodeSystems can be used within a slice definition. Try to avoid the discriminator type 'profile' as this is a very costly operation for a validator.

Don't use nested slicing

In some cases, slicing in this way would mean to add slices within slices (e.a. Observation.component). This doesn't work too well in FHIR - for example, neither the Java nor the .Net validator can't handle this (at the moment) - so we don't use this mechanism. As an alternative, we can use a slicing discriminator based on pattern/code, and on each slice.code we can add a patternCodeableConcept with the required system and value. This has the same effect; at least that coding is required, but others may be added.

Binding HCIM defined ValueSets

  • the ValueSet can be obtained in FHIR 3.0 format from ART-DECOR (see #File_names for file naming conventions)
  • the reference URL can be obtained from the <<ValueSet.url>> element in this file
  • we use binding strength "extensible".
  • the <<binding.description>> value is set to <<ValueSet.name>>

Binding of HCIM BasicElements to profiles

The BasicElements were made explicit in HCIM Release 2017 and have been declared applicable to 2015 and 2016 in the zibs.nl wiki.

Initially, the profiles did not dedicate much attention to the BsasicElements as there was no clarity around how to interpret them. That clarity has since been added but there is still room for interpretation:

For some elements it's clear, e.g. the IdentificationNumber will always go to .identifier, and for other elements it is not, e.g. InformationSource. What would be the InformationSource for the resource Patient? When would a ContactPerson be a Subject in the current profiles, instance had of a Patient?)

The table outlines which mappings are clear and which are yet to be determined. As of the Spring release 2019 of MedMij, all BasicElement mappings have applied for as far as possible:

BasicElement Profiel element Remark
NL-CM:0.0.1 HCIMRoot - not possible
NL-CM:0.0.6 IdentificationNumber .identifier Overlaps sometimes with existing mapping such as HealthProfessionalIdentificationNumber or PatientIdentificationNumber. Unclear what to do with sub parts of an HCIM such as LabroatoryTest and Specimen. Presumably best to map to Observation.identifier and Specimen.identifier
NL-CM:0.0.2 InformationSource .asserter Mapped only when clinically relevant, e.g. AllergyIntolerance.asserter, Condition.asserter. What HCIM is this really applicable to?
NL-CM:0.0.3 PatientAsInformationSource::Patient Patient
NL-CM:0.0.4 HealthProfessional Practitioner | PractitionerRole
NL-CM:0.0.5 RelatedPersonAsInformationSource::ContactPerson RelatedPerson  
NL-CM:0.0.7 Author .author | .performer
NL-CM:0.0.8 PatientAsAuthor::Patient Patient
NL-CM:0.0.9 HealthProfessionalAsAuthor::HealthProfessional Practitioner | PractitionerRole
NL-CM:0.0.10 RelatedPersonAsAuthor::ContactPerson RelatedPerson
NL-CM:0.0.11 Subject .subject | .patient A RelatedPerson is never a Subject of care except possibly for a family anamnesis. Is it clinically relevant and/or reasonable to assume RelatedPerson as possible subject regardless?
NL-CM:0.0.12 Patient Patient
NL-CM:0.0.13 RelatedPersonAsSubject::ContactPerson RelatedPerson 
NL-CM:0.0.14 DateTime .effective | .onset Is this clinically relevant time to be assumed only on clinical HCIMs? So not on e.g. Patient, Practitioner, Organization?

Miscellaneous

  • We only profile elements, cardinalities and bindings that require profiling. We leave other elements, cardinalities and bindings as-is (see #Open_vs._Closed_Modeling)
  • For elements that map to Health and Care Information Models (HCIM):
    • We copy the name from the HCIM element into the profile element.short (in elements that refer to other zibs, the name is built up like <<ElementName::ReferenceZibName>>, but we only use the part before the double colons)
    • The HCIM concept description is placed in the profile element.definition
    • The HCIM Dutch concept name is placed in the profile element.alias
    • Note: as a rule of thumb, we place this info 'as close as possible' to the elements that actually represent the data. For example: when slicing, the texts are placed on the slice content, not the slice itself. Similarly, in concept containers like Observation.component, this info is placed on the .valueXXX elements. This is also true for the HCIM mappings.
    • Implementation guidance, such as mapping clarification and usage, of HCIM concepts that are mapped to multiple elements is given on the root of the resource. The nl-core-address profile provides a good example.
  • Slices get an UpperCamelCased name based on the HCIM element name.
  • New elements defined through extensions get a lowerCamelCased name based on the HCIM element name.
  • When adding invariants we use "hcim-[hcim-name]-[number]" as a key. Example: hcim-alert-1
  • FHIR URI Strategy (draft document with potentially good info)
  • For FHIR base resource elements with datatype code and binding required it may be that the HCIM has other/additional codes to specialize the FHIR codes. To conform to FHIR and the HCIM:
    • We will document the mapping in a ConceptMap, which will be linked from the element .mapping comment.
    • We will use the extension http://nictiz.nl/fhir/StructureDefinition/code-specification:
      • The extension is of datatype CodeableConcept, which also supports text as a fallback. It is bound with strength "extensible" on the HCIM derived ValueSet in the profile where it is applied.
      • The extension slice is named after the full English name of the code list according to the HCIM.
      • Mapping from the HCIM concepts is applied to the .valueCodeableConcept.mapping in the extension (in addition to the .mapping in the FHIR element).

Open vs. Closed Modeling

× Open Closed
Pros - Forward compatibility

- Modelers don't have to think about what you shouldn't support, only what must be supported

- Implementers can fit more data, even if it's not in specified explicitly bu the profile

- Implementers, don't have to support all elements that maybe, someday could be used, according to the model

- Model becomes more specific

- Model becomes smaller and more straightforward

- More implementer feedback, about elements they want to support, but currently can't

Cons

- Implementers, have to support all optional elements that maybe, someday could be used, according to the model - Model becomes more vague,

- Model becomes larger and less straightforward about what should actually be supported, and what can optionally be supported

- Less implementer feedback: elements they want to send can be easier 'hacked' in a not yet explicitly specified element. Model won't be improved.

- More versions of models, after more elements have to be supported

- No forward compatibility, only backwards

- Implementers have to wait for a new version of the model, if they want to support elements, that are currently not in scope.

We have chosen for "open" modeling for the HCIMs, since they are very general and not meant for one specific use case. Excluding unspecified elements here is not an option, since we expect derived profiles for more specific use cases that may need those elements.

Cardinality/conformance mapping table

Cardinality applies to the number of occurrences that an element MAY/SHOULD/SHALL have. Minimum cardinality is integer 0. Maximum cardinality is "n" or "*" (exact character depends on tooling). If the minimum cardinality is higher than 0, then an element has to be present.

Conformance applies to what a system MAY/SHOULD/SHALL support. When data for an element is missing, e.g. because it is not applicable, then the element may be absent, but when conformance MustSupport is active, then a conformant application SHALL support it. Contrary to V3, there is no concept of NullFlavor in FHIR, so whenever an element is 1..1 in FHIR, there is no escape through NullFlavor: a value SHALL be present.

Reference: ElementDefinition.mustSupport

This poses a need for a mapping table from cardinality/conformance in HCIMs versus that in profiles.

Generic (HCIM) FHIR --- Specific application FHIR
0..1 0..1 0..1 0..1
0..1 C 0..1 0..1 C 0..1
0..1 R 0..1 0..1 R 0..1 - consider mustSupport='true'
0..* 0..* 0..* 0..*
0..* C 0..* 0..* C 0..*
0..* R 0..* 0..* R 0..* - consider mustSupport='true'
1..1 0..1 1..1 0..1
1..1 C 0..1 1..1 C 0..1
1..1 R 0..1 1..1 R 0..1 - consider mustSupport='true'
1..1 M 1..1 1..1 M 1..1 - consider mustSupport='true'
1..* 0..* 1..* 0..*
1..* C 0..* 1..* C 0..*
1..* R 0..* 1..* R 0..* - consider mustSupport='true'
1..* M 1..* 1..* M 1..* - consider mustSupport='true'

mustSupport="true" has the consequence that any conformant instances based on this profile SHALL support this part of the profile in the way that is defined by the implementation guide that governs the profile. This is not possible to state for a generic profile that aims to support many more use cases/contexts than is possible to know from the perspective of the profile. If a specific context requires use of a certain part of the profile it MAY choose to specify a constraining profile on top of the generic profile to do just that.

Constraining references

HCIMs might have have connections to other HCIMs. Example: a MedicationAgreement might have a Prescriber relationship defined using a HealthProfessional which is mapped to a FHIR MedicationRequest.requester as Reference(Practitioner). The FHIR MedicationRequest however, defines more types: Reference(Practitioner | PractitionerRole | Organization | Patient | RelatedPerson | Device). The closed world model would mandate that the profile only marks Practitioner for use. The open world model would mandate that the profile describes that for a HealthProfessional you need the Practitioner without omitting the other choices.

For general purpose profiles, suitable for further constraining we use open world profiling meaning that we do not constrain the choices of references into just the types that the HCIM requires. We only constrain the generic resource reference to the generic profile(s) for that resource. For Practitioner this would be the nl-core-practitioner. If deemed relevant a second layer of derived profile(s) could be created to tailor the generic profile for a specific use case using closed world modeling.

Data type mapping table

DECOR defines a set of data types. In most cases, the mapping to FHIR is straightforward, though there are a number of cases which are not as clear-cut. When defining extensions, or specifying the datatype of an Observation or Questionnaire.item in FHIR, a mapping to the relevant FHIR datatype needs to be done. The table below shows a mapping for datatypes in HCIMs versus those in profiles.

HCIM ART-DECOR FHIR Remarks
INT count Count or integer Count in FHIR is derived from Quantity, this is appropriate for observations, such a a count of red blood cells in a specimen. Count in FHIR is a Quantity with system="http://unitsofmeasure.org" and code="1" (for units). If this is not appropriate, use integer.
BL boolean boolean
ED blob base64Binary
CD code CodeableConcept or coding or code In general, CodeableConcept will be the right choice. See Using Codes in Resources for details.
ANY complex BackboneElement 'complex' is data which is not further defined in DECOR, and thus cannot be translated.
- currency Money Does not have a HCIM counterpart currenty. Theoretically this could be MO
- date date Does not have a HCIM counterpart currently. Closest counterpart could be TS
TS datetime dateTime
- decimal decimal Does not have a HCIM counterpart currently. Theoeratically this could be REAL
- duration Duration Does not have a HCIM counterpart currently. Closest counterpart could be PQ
II identifier Identifier
CO ordinal CodeableConcept or coding or code See Using Codes in Resources for details.
ST string string
- ratio Ratio Does not have a HCIM counterpart currently. Closest counterpart could be RTO
- text string Does not have a HCIM counterpart currently.
PQ quantity Quantity

Translating DECOR to FHIR

Status: proposal

Quite often we will populate FHIR artifacts from DECOR artifacts. In such cases, FHIR identification must be derived from DECOR identification.

DECOR uses the attributes id and effectiveDate to identify concepts, datasets, transactions, valueSets and templates. The artifacts with the same id but different effectiveDates are subsequent versions of the same artifact (though artifacts can also get a new id for a new version, such as when a new dataset is derived from an older one).

In FHIR, every resource can have an id, which is the "logical id" of the resource. This id never changes once assigned, like DECOR id and effectiveDate. Resources usually have an URL too, which also identifies the resource, but should be resolvable. The URL can contain the id.

The following ART-DECOR artifacts map to FHIR artifacts:

DECOR artifact FHIR artifact FHIR identifier system Notes
concept DataElement http://art-decor.org/ns/oids/de DataElement is a wrapper around a FHIR element (based on ElementDefinition). A FHIR element is not serializable independently, but is wrapped in a StructureDefinition or DataElement.
dataset
transaction
Logical Model http://art-decor.org/ns/oids/sd A Logical Model is a StructureDefinition without base resource. FHIR uses this to capture user requirements.
valueSet ValueSet http://art-decor.org/ns/oids/vs

The following FHIR attributes are constructed in the following way, when generated from ART-DECOR. Non-digits are stripped from the timestamp in @effectiveDate because they violate the FHIR rules for id.

FHIR artifact derivation from DECOR
FHIR id @id + '--' + @effectiveDate
FHIR identifier system See above
FHIR identifier value @id
FHIR version @effectiveDate
FHIR status See below

Status is translated from DECOR to FHIR:

DECOR status FHIR status
new draft
draft draft
pending draft
active active
review draft
cancelled retired
rejected retired
deprecated retired
default is 'draft'