MedMij:V2020.01/FHIR IG: verschil tussen versies
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{{DISPLAYTITLE:MedMij FHIR Implementation Guide}} | {{DISPLAYTITLE:MedMij FHIR Implementation Guide}} | ||
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circle 241 216 211 [https://www.medmij.nl/afsprakenstelsel Afsprakenstelsel] | circle 241 216 211 [https://www.medmij.nl/afsprakenstelsel Afsprakenstelsel] | ||
− | circle 1013 224 212 [[MedMij: | + | circle 1013 224 212 [[MedMij:V2020.01/Ontwerpen|Functioneel]] |
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==Scope== | ==Scope== | ||
− | The scope of this guide includes requirements to enable PHR and XIS in the Dutch realm to use standardized structured data in a defined inter-organizational transaction. Health is a vast domain. Therefore, MedMij has made scoping choices for its roadmap. MedMij starts with a limited number of medical subdomains but has the vision to elaborate on more domains later. In scope domains are first described in the [[MedMij: | + | The scope of this guide includes requirements to enable PHR and XIS in the Dutch realm to use standardized structured data in a defined inter-organizational transaction. Health is a vast domain. Therefore, MedMij has made scoping choices for its roadmap. MedMij starts with a limited number of medical subdomains but has the vision to elaborate on more domains later. In scope domains are first described in the [[MedMij:V2020.01/Ontwerpen|functional design]] that underlies this technical design. |
==Background== | ==Background== | ||
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=Release notes= | =Release notes= | ||
− | Release notes can be found on the [[MedMij: | + | Release notes can be found on the [[MedMij:V2020.01/Ontwerpen#Release_Notes|functional design page]]. |
=Releases= | =Releases= | ||
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− | | [[MedMij: | + | | [[MedMij:V2020.01/FHIR_IG|2020.01]] || 2020-08-11 || Summer release containing fixes for MedMij information standards |
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| [[MedMij:V2019.01_FHIR_IG|2019.01]] || 2019-03-11 || Spring release containing fixes for all information standards | | [[MedMij:V2019.01_FHIR_IG|2019.01]] || 2019-03-11 || Spring release containing fixes for all information standards |
Huidige versie van 19 nov 2024 om 16:20
Inhoud
- 1 About the IG
- 2 Afsprakenstelsel
- 3 Functional design
- 4 Use cases
- 5 Use case overarching principles
- 5.1 Content Types and encodings
- 5.2 Use of coded concepts
- 5.3 Use of the Reference datatype
- 5.4 Relating FHIR profiles with their functional definitions
- 5.5 Profile use and declaration
- 5.6 Resource.text or "the narrative"
- 5.7 Search
- 5.8 Usage of the .id, .identifier and .fullUrl elements in FHIR instances
- 5.9 Handling errors
- 5.10 CapabilityStatements
- 5.11 Referring other resources when sending information
- 6 FHIR Packages
- 7 Relevant links
- 8 Contact
- 9 Release notes
- 10 Releases
- 11 Support
Quick links
1 About the IG
This is the technical MedMij FHIR implementation guide based on HL7® FHIR® version STU3.
1.1 Purpose
An implementation guide for making use of FHIR in the Dutch context. This guide is developed specifically for the use of HL7® FHIR® between personal health records(PHR) and healthcare provider systems (XIS). PHR and XIS vendors that participate in MedMij conform to a framework of agreements, in Dutch this is called the 'afsprakenstelsel.' HL7 FHIR, or just 'FHIR', plays an important role among those agreements and is used as a standard to exchange health information between the involved parties. The purpose of this guide is to describe use cases and provide technical guidance on how to implement FHIR in these situations. This guide outlines the FHIR building blocks, or profiles, involved in these use cases. Moreover, this guide provides a textual explanation of these building blocks and describes their relationship and boundaries.
1.2 Scope
The scope of this guide includes requirements to enable PHR and XIS in the Dutch realm to use standardized structured data in a defined inter-organizational transaction. Health is a vast domain. Therefore, MedMij has made scoping choices for its roadmap. MedMij starts with a limited number of medical subdomains but has the vision to elaborate on more domains later. In scope domains are first described in the functional design that underlies this technical design.
1.3 Background
MedMij aims to stimulate electronic information exchange between patients and caregivers. Caregivers generally have access to software applications to help them support their work in treating patients. Software applications for patients are evolving as we speak, but patients typically are not yet enabled to be regarded as a true partner in the care process. MedMij delivers an agreements scheme to enable patients to become that true partner. The section #Afsprakenstelsel describes the relation to this implementation guide.
Information standards have a functional and technical component. The functional part contains definitions of relevant concepts (dataset) and scenario’s that define when to exchange which of those concepts. The technical part translates the functional scenario’s in an exchange format (such as HL7v3 or FHIR). The stakeholders in MedMij have chosen to introduce FHIR as a modern standard to exchange information in MedMij. A dutch factsheet that explains why FHIR is chosen is available on the MedMij website. MedMij delivers a FHIR representation (profiles) for each domain in scope.
The program ‘Registratie aan de bron’ (Data capture at the point of Care) has defined Health and Care Information models (zorginformatiebouwstenen or zibs) for The Netherlands. zibs contain definitions of healthcare concepts. MedMij information standards contain mappings to these zibs. MedMij creates FHIR profiles based on zibs which include mappings to the relevant zib concepts. As a result, the created profiles enable context-free implementation. Therefore, these profiles are applicable in a broader context than the described use cases or the MedMij context. Reuse of these profiles enables interoperability for health information.
1.4 Audience
The main target audience of this implementation guide is software vendors and developers that will implement FHIR as part of electronic information exchange under MedMij. This IG is intended for developers of PHR as well as XIS vendors. Users of this guide are expected to be familiar with the FHIR specification and resource processing. This guide provides links to relevant sections of the FHIR specification. This implementation guide is not intended to be a tutorial on that subject.
1.5 Language
This implementation guide is written in English, even though the majority of the documentation in MedMij is in Dutch. A Dutch translation of this document may become available. However, the English version is and remains leading. The rationale for choosing English is as follows. Implementers in healthcare are in many cases foreign, e.g., through outsourcing or because the company is a multinational. But even if they are Dutch native speakers, the educational tracks, their programming language of choice, and the implementer communities they are part of will largely be based on the English language. In creating the documentation for the target audience, we have received overwhelming preference from the MedMij implementer community for English. English documentation saves them investments and risks in getting a translation agency on a per vendor basis for each version of the documentation, while at the same time not alienating the native Dutch speaking audience. As a side effect it also helps Nictiz in the international realm in discussions with relevant initiatives such as Argonaut (US), Patients Know Best (UK), the Finnish PHR, and the HL7/FHIR community at large.
2 Afsprakenstelsel
The 'afsprakenstelsel' references the MedMij information standards. In addition, the MedMij information standards are specified in the context of the 'afsprakenstelsel.' This applies to the implementation guidance of the use cases described in this implementation guide.
For example, all use cases performed in the context of a specific authenticated patient, for which an OAuth2 token has been retrieved using the Authentication mechanisms described in the 'afsprakenstelsel'. This token must be passed in each call in the HTTP header named Authorization
. Each XIS Gateway is required to perform filtering based on the patient associated with the OAuth2 token received for the request so that only the records associated with the authenticated patient are returned.
3 Functional design
All use cases described in this implementation guide have a functional counterpart. The functional design pages are written in Dutch. The main overarching wiki page of the functional designs can be found at here. From this page, you can link to the specific use case through the patient journey image or the table index. It is possible to link to the specific functional design page from the technical use case pages in this wiki by clicking on the functional circle in the top image.
4 Use cases
Implementation guidance is provided per use case on separate wiki pages. The next section provides implementation guidance that apply for all use cases. The green circles represent the available use cases. Click on the circle to go to the use case page.
When considering an implementation of (parts of) BgLZ, please contact standaarden@medmij.nl. |
5 Use case overarching principles
5.1 Content Types and encodings
Unless stated otherwise, the information standards use the FHIR RESTful framework. This framework defines at least three content-types to send/retrieve information:
- XML: application/fhir+xml
- JSON: application/fhir+json
- RDF: text/turtle - Not supported in this context
Servers SHALL support both XML and JSON, while clients MAY use either format for the request and the response. For the response, servers SHALL support server-driven content negotiation as described in the FHIR specification. This means that clients can indicate the desired response format using the optional _format=[mimetype]
URL parameter, or the acceptable response format(s) using the Accept
header. The URL parameter takes precedence over the header. If a client does not request a specific content-type, then it is server discretion to respond using XML or JSON.
FHIR uses UTF-8 for all request and response bodies. Since the HTTP specification (section 3.7.1) defines a default character encoding of ISO-8859-1, requests and responses SHALL explicitly set the character encoding to UTF-8 using the charset
parameter of the MIME-type in the Content-Type
header. Requests MAY also specify this charset
parameter in the Accept
header and/or use the Accept-Charset
header.
5.2 Use of coded concepts
5.2.1 Textual description of coded concepts
Coded information is extremely important for interoperability between systems. It enables systems to act on information rather than have humans read everything for interpretation - it enables medication related alerts, exercise encouragements because of weight increase, and many more things. In the HCIMs and profiles, we therefore strive for complete coverage of all possible situations.
However it is likely that unknown codes present themselves in the communication, for example because the sending system has updated its medication codes to a newer version than the receiving system, or because an older record item is coded in a way that now has been deprecated. It is therefore vital that, in addition to the code itself, the sender includes the semantics of the code. Therefore, systems SHOULD include (CodeableConcept).coding.display
and/or CodeableConcept.text
for coded data in FHIR instances. These fields may only be absent in rare circumstances, for example when dealing with historic data, or in data acquired without such info from a third party.
5.2.2 Code system URIs
A coded value in FHIR is communicated as a combination of a code (in .code
) and the canonical URI for the code system from which it was drawn (in .system
). Implementers SHALL use the canonical URI that is defined in the FHIR conformance resource. This canonical URI can be found by inspecting the ValueSet that is bound to a coded element in the appropriate FHIR profile.[1]
Please note: it is an error to assume that the OID assigned to a code system can be used to construct its canonical URI. The canonical URI for use in a FHIR context will always be assigned through the conformance resources[2]. It can align with this OID (as a (urn:oid:[oid]
URI), but this is not always the case. For example, SNOMED CT is referenced by URL rather than by urn:oid:[oid]
.
5.2.3 Mapping of coded concepts
Terminology from HCIMs or UCSDs (use case specific datasets) needs to be faithfully applied to the FHIR profiles, but this is not directly possible when the base FHIR resource defines required terminology that bears no direct relationship with the HCIM or UCSD. These cases include, but are not limited to, the FHIR resource elements of datatype code (Patient.gender
, status
elements, structural type elements, etc.). This datatype always describes FHIR specific terminology, which usually doesn't align with the HCIM/UCSD terminology.
In these cases, a mapping will be provided to explain the relationship between de HCIM/UCSD terminology and the FHIR terminology. This is normally done through a FHIR ConceptMap, which can translate between the terminology used in the HCIM/UCSD, and the terminology that FHIR instances need to adhere to. When the ConceptMap .equivalence
is not equal or equivalent, the original terminology from the HCIM/UCSD SHALL be communicated as well using the extension code-specification on the same element. It is recommended to use this extension in other situations as well. This allows unambiguous interpretation on the receiver end.
Example snippet from an AllergyIntolerance where both the FHIR terminology high and the SNOMED CT 24484000 terminology are communicated. The FHIR terminology is obtained from the HCIM terminology using ConceptMap MateVanKritiekZijnCodelijst-to-allergy-intolerance-criticality:
<criticality value="high">
<extension url="http://nictiz.nl/fhir/StructureDefinition/code-specification">
<valueCodeableConcept>
<coding>
<system value="http://snomed.info/sct"/>
<code value="24484000"/>
<display value="Severe"/>
</coding>
</valueCodeableConcept>
</extension>
</criticality>
5.3 Use of the Reference datatype
A key feature of FHIR is the ability of resources to reference each other. This is done using the Reference datatype. This datatype supports two modes of referencing:
- Literal references, using the
.reference
element - A relative or absolute REST endpoint containing
.id
of the referenced resource. In a Bundle context, this may also be a reference to aBundle.resource.fullUrl
. - Logical references, using the
.identifier
element - Meaning a match on the business identifier (
.identifier
) for the referenced resource, without specifying where to find the referenced resource. Note: confusingly, although this reference type is called "logical reference", it does not act on the "logical identifier" (.id
) of resources.
The resource/profile will usually constrain which resources may be targeted from a given element. For example, Patient.generalPractitioner
may point only to an Organization or Practitioner resource, and the nl-core-patient profile further restricts this to the nl-core-organization and nl-core-practitioner profiles[1].
The basic requirements for using references in this context are:
- Either a literal or logical reference SHALL be specified, unless specified otherwise.
- Literal references are preferred over logical references when multiple target resource types/profiles may be used[2].
- Literal references SHALL be resolvable.
- External references SHALL be regarded in the same context as the resource itself. If the current security context is insufficient for retrieving the reference, then additional negotiation for appropriate privileges may be required.
- Relative references are preferred over absolute references.
- For a receiver it is not always possible or feasible to actually resolve a reference. Therefore, a short description of the target resource SHALL be included using the
.display
element.
Please note: in rare circumstances, it is undesirable to provide a receiver with detailed information until it is actually able to resolve the reference, e.g. due to privacy considerations. In this case, it is expected that the.display
contains an explicit remark that this information is masked.
Note 1: Encounter.participant
, which cannot reference a PractitionerRole resource to provide context of the attending physician, and Media.operator
, which cannot target Patient resources and thus doesn't recognize patient-generated Media). In such cases, the proper reference type is added using an extension within the element that is used to refer the other resource. To aid receiving systems that cannot handle the extension, the sending system SHOULD give as much information as possible in the main element. In the case of the PractitionerRole reference extension, this means that the sending system SHOULD populate the main element with the reference to the Practitioner resource. In most other cases, the sender SHOULD repeat the .display
used in the extension in the main element.
Note 2: ^ There is a known weakness in the Reference datatype for FHIR STU3 which is fixed in FHIR R4: if the reference might have more than one type of resource as target, a receiving system cannot know what type is meant when only an identifier is provided.
5.4 Relating FHIR profiles with their functional definitions
All profiles have a traceable relationship with their functional counterpart(s) based on the element mapping mechanism in FHIR. This allows to:
- define one or more references from a FHIR profile to an external URL where the functional definition can be found
- define for each FHIR profile element to which concept within a functional definition it corresponds
The functional definition(s) underlying the profile can thus be resolved using the StructureDefinition.mapping
metadata field of a profile. To relate a FHIR profile field to a concept from the functional description, the concept ID defined in the DataElement.mapping
can be used to look up the concept in the functional definition. It is possible that a single profile element refers concepts from multiple functional descriptions. Simplifier will show an overview of all the mappings for a FHIR profile on the dedicated 'mappings' tab, together with a clickable URL to the functional definition. In addition, on the 'overview' tab for each field the relevant mapping can be found.
For example, the profile nl-core-address defines a relationship with with four functional definitions, one of which is AddressInformation-v1.0(2017EN). This mapping is identified within the profile using 'hcim-addressinformation-v1.0-2017EN'. Looking at the Address.city
element in this profile, one of the mappings is defined as 'hcim-addressinformation-v1.0-2017EN:NL-CM:20.5.3'. This reveals that this element implements (amongst others) the concept from the HCIM AddressInformation-v1.0(2017EN) described using ID 'NL-CM:20.5.3'.
5.4.1 Absence of the mustSupport
flag
The basic notion for any element or extension in a profile, most specifically when it has a mapping to a functional definition, is: provide what you have, and support what you can. At the zib profiling level it is not known what the exact context of use will be. This means that a formal FHIR mustSupport
flag would possibly not hold in every imaginable use case. Therefore, mustSupport
flags are absent in zib profiles. The exact requirements for the use case at hand should not be inferred from the zib profiles, but from the functional specification that is part of any information standard.
An information standard may provide additional use case or transaction specific profiles, which constrain cardinalities and apply mustSupport
as applicable, for extra implementation guidance.
5.5 Profile use and declaration
The implementation guides for the various information standards list the profiles to use for the FHIR resources. A profile is a statement about the rules that this resource was created against. In the interest of interoperability it is important that, when using said information standard:
- Each resource SHALL be a valid instance of the applicable profile. Note that this applies not only to profiles listed directly in the IG, but also to profiles referred from/used by listed profiles.
- Each resource SHALL include the canonical URL of this profile in the
meta.profile
element. The canonical of compatible base or derived profiles MAY be included as well. - A receiving system MAY use the stated value of
meta.profile
for validation, documentation or other purposes. - A receiving system MAY use other profiles than stated in
meta.profile
, e.g. when it has derived, more constrained profiles based on the stated meta.profile. Reasons for additional validation may include protecting the integrity of the receiving system or determination of internal process flow.
5.6 Resource.text
or "the narrative"
The FHIR STU3 specification says instances SHOULD contain a human readable summary of the contained data, which can be used as fallback by the receiver. This human readable text is contained in the .text
element with datatype Narrative. This human readable text is often referred to as "the narrative".
This implementation guide has the following expectations regarding the use of narratives:
- Senders SHOULD provide a "clinically safe" (see below) narrative of status extensions (preferred) or generated (see below), unless:
- The resource does not support narratives. This is the case for resources that do not derive from DomainResource, like Binary.
- The resource is contained in another resource.
- It is explicitly documented in the information standard to do otherwise.
- Receiver SHALL support the narrative. Ignoring the narrative is considered passive support. Support for the narrative SHALL be in accordance with the status and explicitly documented use in the relevant information standard.
- Receiver SHALL NOT generically depend on presence of a clinically safe narrative as their only means to present data to users when an explicitly documented use case for status empty or additional exists. Also, using just the narrative you would not expect to produce graphs, support for medication alerts and other functionality.
5.6.1 "Clinically safe" narratives
Regarding the contents of the narrative, the FHIR STU3 spec states that:
The narrative need not encode all the structured data, but is required to contain sufficient detail to make it "clinically safe" for a human to just read the narrative.
And for the Narrative datatype:
Structured data SHOULD NOT generally contain information of importance to human readers that is omitted from the narrative. Creators of FHIR resources should not assume that systems will render (or that humans will see) data that is not in the narrative.
The decision to what entails "clinically safe" information, is somewhat arbitrary. Guidelines for "clinically safe" inspired by the FHIR W5 report:
- If you only had the narrative: the intention and context should be clear to you.
- Who. Patient/subject, performer, author and/or other primary actors. Is this about family history or the actual patient.
- What. The topic for the resource is clear.
- When. Is this past, present, or future information.
- Why. What led up to the event. E.g. Condition, Referral that caused Encounter or Procedure.
- Where. Location of the event/action in the resource.
- Context. Relevant context as present as presented in the resource. status, Encounter, EpisodeOfCare, Diagnosis, Condition, BodySite.
- Rendering every identifier and/or code detail may not be necessary.
Resource.text
is for human assessment of the situation so emphasis should be on display text, representing identifier/code/system as relevant in the context.
Informal note: Producing a "clinically safe" narrative can be cumbersome. Various reference frameworks like HAPI include a Narrative Generator of some sort.
5.6.2 Narrative status
Datatype Narrative defines different status codes to indicate the origin of the narrative text. This implementation guide expects the most common use case to be the status extensions, which means that the narrative is generated entirely from the structured data and the extensions used. The reason for this is that most resources can have extension content defined on them. This status can still be used if a particular instance doesn't contain any extensions.
Alternatively, status generated may be used if the sender did not anticipate inclusion of regular extension content in the narrative.
Note: for both status extensions and generated, all modifier extensions SHOULD be included in the narrative as they always affect the semantics.
Senders SHOULD NOT use the other possible statuses unless it is explicitly documented why, e.g. in an information standard. Receivers MAY choose to support narratives with status additional, which means that it holds information not contained in the structured data. Receivers - upon rendering narrative with status additional - SHOULD make it clear to the user that the information is a fragment, and not the entire thing, in some suitable way.
5.7 Search
5.7.1 Search URLs and search parameters
Each use case of the various information standards lists the search parameters to use for a client to query the relevant information on a server. Usually, this is done in the form of (a number of) search URL(s), although individual use cases may use some other form if necessary (for example, listing optional parameters). Regarding the search parameters, the following guidelines apply:
- Unless explicitly marked as optional, the listed search parameters are considered the minimum for a request, meaning that:
- All stated parameters and modifiers SHALL be supported both by clients and servers.
- All stated parameters and modifiers SHALL be used for searching as specified in the information standard.
- A client MAY use additional search parameters in the search (such as date-range) not defined in the information standard. These may serve to further constrain the result set.
- A server MAY ignore and MAY support additional search parameters. A server SHALL report the applied parameters in the self link of the response and SHOULD provide additional information about the search process using an OperationOutcome in the search result Bundle (as an entry with
search.mode
set to outcome). A client MAY use the self link and/or OperationOutcome to inform the user, independently apply these filters to the result set, or take some other action. - A server SHALL reject any search request that contains parameters suffixed by a modifier that the server does not support for that parameter. For example, if the server supports the name search parameter, but not the :exact modifier on the name, it should reject a search with the parameter
name:exact=Bill
, using an HTTP 400 error with an OperationOutcome with a clear error message. - A server SHALL NOT return information that is out of scope for the defined use case or authorization, even if the request by the client is wider than the use case.
- Repeating search parameters constitute a logical AND. Repeating search parameter values constitute a logical OR. Where applicable, this will be described further in the implementation guide.
- The order of the search parameters is always irrelevant.
General guidance on the use of search parameters can be found in the FHIR specification.
5.7.1.1 Search on date, number or quantity
When a search parameter has a type of date, number or quantity, the request uses prefixes to control the search behavior. Unless explicitly stated otherwise, the minimum set of supported prefixes for these types is eq
, gt
, lt
, ge
and le
. For example:
GET [base]/Observation?date=ge2019-01-01&date=le2020-01-01
Searches on all Observation resources that have an .effective[x]
between January 1, 2019 and January 1, 2020.
5.7.1.2 The _lastUpdated
search parameter
Retrieving information that was added, changed, deleted relative to a date may be done using the search parameter _lastUpdated
, which is available for any resource. Using the parameter _lastUpdated
, a system may query for data that is new since a specified date. Any FHIR server is expected to support this parameter. More information can be found in the section on _lastUpdated
in the FHIR specification.
An example search request is shown below.
GET [base]/Consent?category=http://snomed.info/sct|11291000146105&_lastUpdated=gt2018-10-01
This search finds all Consent resources with a category SNOMED code 11291000146105 that have been modified since Oct 1, 2018.
5.7.2 Search results
5.7.2.1 Including referenced resources
Servers may not support read interactions, but all references from search results need to be resolvable (see #Use of the reference datatype). Therefore servers MAY choose to include the referenced resources in the searchset Bundle, even if the client didn't use any _include
parameters (example). These resources SHALL have Bundle.entry.mode
set to "include". Servers SHOULD NOT use contained resources for this purpose.
The examples page illustrates how servers can provide resolvable references in different situations.
5.7.2.2 Paging
Servers MAY use paging for performance reasons. Client SHALL support this mechanism to prevent loss of information.
5.8 Usage of the .id
, .identifier
and .fullUrl
elements in FHIR instances
5.8.1 .id
versus .identifier
FHIR recognizes two fields that are used as identifier for instances: .id
and .identifier
. Although these are both identifiers, they are unrelated and serve a completely different purpose:
.id
is the logical identifier, or technical identifier, akin to the id-field in a database. It is used as a unique handle for every instance on a particular server, and is needed to construct the URL to the instance. As such, it is used for referring between resources. The.id
has no further meaning outside of the server..identifier
is a business identifier, which usually has a meaning outside of the server. Examples are a registration number of a healthcare provider, a BSN or social security number for citizens, ISBNs for books, etc. Any instance may have multiple kinds of identifiers.
5.8.2 When is .identifier
expected?
Systems that use an (internal) stable identifier to track information are encouraged to assign it to the .identifier
element of FHIR instances when sending the resource, using a custom identifier .system
(e.g. an URL or OID that is under control of the sending organization). Because in HL7v3 (CDA) an identifier can only be composed using OIDs, the .system
should preferably be an OID to accommodate compatibility in transformations from FHIR. Especially for resources that are used in information standards that have a HL7v3 (CDA) component, such as the BgZ, GP data and Medication process.
The presence of this element helps receiving systems with re-identification and deduplication of resources, especially when the sender system does not natively support logical ids.
Specific requirements for the usage of .identifier
will be dictated on a use case basis by the particular profiles.
5.8.3 When is .id
expected?
As stated above, the logical id is meant to uniquely identify instances on a particular server; it is a vital component when using FHIR within a RESTful context. So as a rule of thumb, the .id
element should always be present when dealing with instances that have a logical id, thus with instances on a server. This means:
- When a client reads, updates or otherwise addresses an existing resource on a server, the
.id
element SHALL be populated in the request and response, and it SHALL match the id in the request URL. - When a client sends a new instance to a server using a create operation, the
id
element is not expected to be present -- these new instances don't exist yet on the server, so a logical id has no meaning. However, the server SHALL assign a logical id and populate the.id
element in the response.
Note: It is not strictly prohibited to populate the.id
field when sending a new instance, but the server SHOULD ignore it. - When a client performs a search on a server, all instances in the returned searchset Bundle SHOULD have the
.id
field populated.
Note: A server SHOULD try its best to create stable ids for the resources it serves. Omitting.id
elements is strongly discouraged as it breaks the assumptions about RESTful behavior. However, a server that omits.id
s is still considered conformant when the conditions below are met:- The server does not natively support logical ids, for example when it is a stateless middleware server that gets its input from a non-FHIR XIS backend.
- And the use case doesn't require read / update / delete / patch support for any of the returned of referenced resources, as stated by the CapabilityStatement for the information standard.
- And the server includes all referenced resources in the searchset Bundle (regardless of whether the client asked to do so). These resources refer to each other based on the fullUrl mechanism as described below.
5.8.4 Logical ids, .fullUrl
s and references in Bundles
There are several FHIR operations, like searching or batch create operations, where multiple instances are placed together in a Bundle. These instances will usually contain references to each other. These internal references cannot be resolved simply by inspecting the .id
element of every instance; it is not guaranteed that all instances have a logical id. Instead, Bundles allow an entry.fullUrl
element for each instance which may be used for references. This is an additional mechanism to the logical id, not a replacement:
- The guidelines above for populating the
.id
field still apply. - If
.id
is present,.fullUrl
SHALL correspond with it (see below).
.fullUrl
s may be RESTful URLs, UUIDs or even OIDs, based on the situation (which may be mixed within the same Bundle):
- Instances with a logical id
- If an instance can be accessed on the server using RESTful operations, the
.id
of that instance in the Bundle will be populated. The corresponding.fullUrl
in this case SHALL be the absolute URL to the instance on the server.Instances within the Bundle may use relative references to each other, like they are on the same server. The FHIR machinery specifies how to find the matching instance based on the
.fullUrl
. - Instances without a logical id
- When instances are to be created on a server or when the server doesn't support reading individual instances, they don't have a logical id. When these id-less instances need to be referenced from within a Bundle, there are two alternatives:
- UUIDs can be used as single-use ids that will change each time the Bundle is generated. The
.fullUrl
for the instance will be the UUID prefixed withurn:uuid:
. [3] - OIDs can be used if the instance has an OID-based business identifier (i.e. the
.identifier
field), like the UZI number of a healthcare provider. The.fullUrl
will be the OID prefixed withurn:oid:
[3][4].
- UUIDs can be used as single-use ids that will change each time the Bundle is generated. The
- Instances within the Bundle should use the prefixed version of the UUID/OID for referencing.
5.8.4.1 Example
Consider a client that wants to send a new Observation instance to a server and simultaneously link it to an existing Task instance. This can be done using a transaction Bundle (also see the search results examples page for additional examples):
<Bundle xmlns="http://hl7.org/fhir">
<!-- Transaction Bundle that will simultaneously create a new instance and update an existing one -->
<type value="transaction"/>
<!-- A new instance to create -->
<entry>
<!-- The new instance doesn't have a logical id yet, so a temporary UUID is used for references within the Bundle -->
<fullUrl value="urn:uuid:0e855422-b8ef-4247-9443-f3747e78747e"/>
<resource>
<Observation>
<!-- The id field is absent, because the instance doesn't exist yet on the server -->
...
</Observation>
</resource>
</entry>
<request>
<method value="POST"/>
<url value="Observation"/>
</request>
<!-- An existing instance to update with a reference to the new instance -->
<entry>
<!-- RESTful URL of existing Task instance -->
<fullUrl value="http://example-xis.com/Task/1234"/>
<resource>
<Task>
<!-- Logical id of the instance, matches the fullUrl -->
<id value="1234"/>
...
<output>
...
<valueReference>
<!-- Reference to the fullUrl of the new instance -->
<reference value="urn:uuid:0e855422-b8ef-4247-9443-f3747e78747e"/>
</valueReference>
</output>
</Task>
</resource>
<request>
<method value="PUT"/>
<!-- The path on the server, consistent with fullUrl and id -->
<url value="Task/1234"/>
</request>
</entry>
</Bundle>
The server response should then look like:
<Bundle xmlns="http://hl7.org/fhir">
<type value="transaction-response"/>
<entry>
<!-- The newly created instance gets the logical id "5678" from the server -->
<fullUrl value="http://example-xis.com/QuestionnaireResponse/5678"/>
<resource>
<Observation>
<!-- The id matches the fullUrl -->
<id value="5678"/>
...
</Observation>
</resource>
</entry>
<response>
....
</request>
<entry>
<fullUrl value="http://example-xis.com/Task/1234"/>
<resource>
<Task>
<id value="1234"/>
...
<output>
...
<valueReference>
<!-- Reference to the relative URL of the created instance may be relative -->
<reference value="Observation/5678"/>
</valueReference>
</output>
</Task>
</resource>
<response>
....
</response>
</entry>
</Bundle>
5.9 Handling errors
Errors in FHIR interactions are usually communicated using the combination of an appropriate HTTP status code in the 4xx-5xx range, and an OperationOutcome resource providing more details regarding the error. The OperationOutcome resource contains mandatory elements to indicate the overall type and severity of the error (respectively .code
and .severity
) and MAY express the location (using .location
or .expression
) and a free-form or coded description of the error (using the .diagnostics
or .detail
element). Although these latter elements are not required, their usage is strongly encouraged.
For the most common errors, the expected handling is listed in the table below. This should be interpreted as a guideline, as the nature of an error is not always unambiguous and various FHIR reference implementations will make different choices. The FHIR specification provides more detail on error handling in general, access denied responses and for search operations specifically.
In general, most FHIR-related errors (in addition to normal HTTP errors related to security, header and content type negotiation issues) will result in one of these HTTP status codes:
- 400 Bad Request - resource could not be parsed, search could not be processed or basic FHIR validation rules failed
- 401 Unauthorized - authorization is required for the interaction that was attempted (usually emitted by the authorization server)
- 403 Forbidden - the server was unable to execute the search, due to an authorization failure (usually emitted by the resource server)
- 404 Not Found - resource type not supported, or not a FHIR endpoint
- 422 Unprocessable Entity - the proposed resource violated applicable FHIR profiles or server business rules
Interaction | Error | Expected action | Example |
---|---|---|---|
All | Not authorized, absent or expired access token |
|
|
Invalid authorization, scope of the access token is not sufficient for the request |
|
Example | |
Resource is not supported |
|
Example | |
search | No match for the given search parameters | This is not considered an error, but a normal search without results. | |
Unknown search parameter | This is not considered an error. See the guidance in the section on searching. | ||
Syntactically incorrect parameter |
|
Example | |
Known but unsupported value. This situation applies to non-supported HCIM profiles when the Resource endpoint itself is supported. |
|
Example | |
read | Read request with unknown id |
|
Example |
update | No or incorrect Resource id |
|
Example |
create/update | Resource syntax or data is incorrect, invalid or unsupported |
|
Example |
5.10 CapabilityStatements
Information standards may have a CapabilityStatement that is informative in nature and does not represent the minimum or maximum set of capabilities the client or server should support. Nictiz will strive to provide CapabilityStatements that are as complete as possible, however for the exact set of capabilities the implementation guide of the corresponding information standard should be consulted.
5.11 Referring other resources when sending information
When the client creates/updates a resource on a server, it often needs to reference "secondary" resources which are not the primary focus of the interaction -- e.g. an Observation must indicate its subject using a reference to a Patient resource. The client may refer to existing resources on the server for this, but this is not always possible (for example, the client doesn't know about the existing resource or the server doesn't support the read
operation for it). In this case, the client needs to send the secondary resources along with the primary resource in a Bundle, and the server should align these new resources with the ones it already has.
A data conflict may arise if these secondary resources carry details that are not of interest within the particular context of the information standard. For example, the client posts an Observation and sends along a Patient resource containing a different telephone number than the one that is on record at the server side. This change in telephone number is not relevant in this particular context, since the interaction is about creating the Observation.
Unless more specific guidance is given by the information standard, the following guidance applies:
- Sending secondary resources SHALL only be done when the information standard specifies that a
batch
ortransaction
operation is to be used. - If so, the client MAY send a bare-bones instance as the secondary resource containing just minimal information, but this SHOULD include the information necessary for the server to match its own copy. The information standard MAY specify which information is minimally needed for such a secondary resource and MAY also restrict the information that is sent in the secondary resource.
- The client MUST include a
Bundle.entry.request
for each of the resources in the Bundle, including the secondary resources that are only there for referencing purposes[5]..request
SHOULD be aPOST
to the appropriate endpoint to indicate thecreate
operation. As an alternative, theupdate
operation MAY be used, but this is strongly discouraged; if the client has knowledge on the id of the resource on the server, an absolute URL is strongly preferred. - If the server can unequivocally de-duplicate this secondary resource (for example, because the patient is already known from the security context or the healthcare provider is recognized by the UZI number), it MAY choose to ignore the differences of this resource or it MAY incorporate them (see the the section on transactional integity in the FHIR specification). Please note that absence of information should not result in deletion of information on the server, as the client could send a bare-bones instance.
- If a
transaction
operation is used and the server chooses to ignore the differences, it SHOULD do so silently by responding with a 200 OK status code for the correspondingBundle.entry.response.status
in the response Bundle. - If a
batch
operation is used and the server chooses to ignore the differences, it SHOULD do so either silently using the mechanism described above, or explicitly by responding with a 422 Unprocessable Entity status codeBundle.entry.response.status
to indicate that a business rule prevented the resource from being created (in combination with an OperationOutcome resource).
- If a
- The server SHALL rewrite the references in the primary resource to the resource it already has.
6 FHIR Packages
The information standards maintained by Nictiz adopt the FHIR Packaging mechanism to support consistent versioning of profiles and related conformance resources such as OperationDefinitions. FHIR Packaging is based on the NPM Packaging mechanism and offers developers a convenient way to include the conformance resources in their favorite IDE. The relevant package version is indicated and linked in the information standards technical design page.
Please note that every effort has been made to ensure that the examples contained in the packages are correct and useful, but they are not a normative part of any information standard.
For even more background information:
- The HL7 base specification for FHIR packages
- What is the problem that packaging could address
- Introducing the Simplifier FHIR Package Server (includes what problem packaging addresses)
- Firely Torinox introduction (this is one of the tools that's useful for working with FHIR packages)
It is not required to implement FHIR based information standards using the packaging mechanism. It is still possible to download all or selected resources from Simplifier on as-needed basis. You are however encouraged to invest in dealing with packages. |
7 Relevant links
HL7 FHIR specification
Repository of MedMij FHIR artefacts
- Simplifier.net
- GitHub (similar to Simplifier.net)
8 Contact
MedMij
Nictiz
Relevant information
- Consultation documentation
- chat.fhir.org
- The public channel for FHIR related questions and discussions
9 Release notes
Release notes can be found on the functional design page.
10 Releases
Version | Date | Notes |
---|---|---|
2020.01 | 2020-08-11 | Summer release containing fixes for MedMij information standards |
2019.01 | 2019-03-11 | Spring release containing fixes for all information standards |
2018.06 | 2018-10-29 | Added GGZ |
2018.05 | 2018-09-24 | Added GGZ for open consultation |
2018.04 | 2018-08-29 | eAfspraak fase 2 |
2018.03 | 2018-05-07 | Published BgZ 2017 and GP Data |
2018.02 | 2018-03-29 | Added BgZ 2017 |
2018.01 | 2018-02-21 | Added GP patient data |
2017.04 | 2017-12-18 | Added Appointments, Medication, Laboratory results, AllergyIntolerance, Self-measurements |
2017.03 | 2017-11-07 | Added PDF/A |
2017.02 | 2017-10-11 | Unchanged. No wiki pages created for FHIR |
2017.01 | 2017-10-02 | Initial version containing Patient Administration Resources, Patient Summary (BgZ), |
11 Support
For questions and change requests regarding the information on this page, please create a ticket in Servicedesk Portal.
- ↑ Although the canonical URI is not formally defined in the ValueSet, in practical terms it can be found here.
- ↑ There are exceptions to this, in which case other rules apply, see the FHIR specifications. However, this situation is not expected to occur in the use cases that this IG covers.
- ↑ 3,0 3,1 Some implementations may choose to populate the
.id
element with the unprefixed UUID or OID in cases when the.id
field is expected, for example in searchset Bundles. The FHIR specification is ambiguous on the requirements to do so. For a long discussion on the topic, see chat.fhir.org. - ↑ The use of OIDs as id has some limitations:
- The
.id
has a maximum length of 64 characters, so only OIDs that contain less than 64 characters can be used. - OID based ids are expected to be stable, just like RESTful ids. Different Bundle instances SHALL always use the same OID based ids.
- Some objects may have multiple OID based identifiers, like AGB and UZI for practitioners. Which one do you choose? And what happens when the UZI number becomes available after you've already used the AGB as
.id
? - Specifically for HL7 V3 based backends: an HL7 V3 II datatype normally consists of a
@root
(OID) and an@extension
(string). Concatenation of@root
and@extension
only yields a new OID if@extension
is numeric. Other combinations of@root.@extension
, may yield a valid.id
(pattern[A-Za-z0-9\-\.]{1,64}
), but may not be a valid OID. In this case it is no longer possible to create a.fullUrl
consistent with the.id
based the urn:oid: scheme.
- The
- ↑ Although
Bundle.entry.request
is not formally required in FHIR STU3, it is made clear in FHIR R4 that the expected behavior actually is to include it.