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Release 5

This page is part of the FHIR Specification (v5.0.0: R5 - STU). This is the current published version. For a full list of available versions, see the Directory of published versions . Page versions: R5 R4B R4 R3

FHIR Infrastructure icon Work Group Maturity Level: 2 Standards Status: Trial Use

As described in previous sections, many FHIR resources can be used within workflows without using FHIR to manage the execution of the workflows. When we want to manage workflow execution with FHIR, there are several mechanisms available. In addition to managing workflow with FHIR, there are also cases where management of workflow execution is not necessary, and supporting workflow becomes simply the use of the resource patterns in an ad-hoc fashion. In deciding how best to interoperate around workflow with FHIR, there are several considerations:

  • Is sharing of the state of the workflow necessary among the participants?
  • Which paradigm do you want to use (REST, messaging, services, a mix)?
  • Who owns/manages the various resources involved in the workflow (placer, filler, another participant)?
  • Is there infrastructure in place to support polling, push notifications via subscriptions or both?
  • Is there a need for confirmation that the desired performer agrees to act, or can that be presumed?
  • Is there a need to negotiate whether/how the requested action will be performed?
  • Can the requesting and performing system communicate directly? Are they able to post to each other's servers (if using REST)?
  • Is there an ability/need to have a queue server to facilitate workflow execution?
  • How many potential actors are involved?
  • Will the workflow always be directed or is there a pool of potential performers who could choose to perform the requested action?

The answers to these (and other) questions will guide the selection of communication patterns to be used for a specific interoperability use case. It is recommended that domain workgroups analyze the support for workflow execution within their domains and provide recommendations for an appropriate subset of patterns, with a discussion on where and how to use them. Implementation guides, by their nature, should prescribe which patterns to use for workflow execution management.

This section highlights some of the more common patterns and identifies their characteristics and limitations and provides recommendations on when each approach may be most useful or relevant. Please note that this list of patterns is not exhaustive. Patterns can be combined in various ways and there are likely some possibilities we haven't thought about yet (feel free to submit additional patterns using the 'submit a change' link at the bottom of the page). As well, the recommendations given here are just that - recommendations. Implementers are free to choose which patterns they wish to support. Because of this, tight interoperability around workflow execution (as with any other tight interoperability using FHIR) will depend on communicating participants doing some up-front negotiation around how they plan to support workflow execution or all communicating partners will need to adhere to an implementation guide that sets out clear interoperability expectations.

Prior to reviewing this list of options, readers are encouraged to be familiar with the following pages and resources: REST, messaging, operations, services and Subscriptions.

The scenarios used to illustrate the patterns below make use of a few conventions:

  • The focus here is on a "request" and the actioning of that request. Almost all workflows can be broken down to a sequence of these steps, though the responsibilities of the different parties may shift for each interaction and there can be more than two parties involved in the overall workflow
  • The request could be as simple as "please look at this information" and the response could be as simple as an implicit "it's been looked at" or the request could be for some more involved action that may include reporting back multiple interim and final steps
  • The requester is referred to as the "placer" and the performer is referred to as the "filler", which are often seen as order-specific terms. However, in this context, the terms hold whether the request is expressed as a proposal, plan or full-blown order
  • Each of the patterns defines the set of steps involved in processing the request, lists some of the benefits and limitations associated with the approach, provides a scenario to illustrate the use of the pattern, and then makes recommendations about when the pattern is most appropriate
  • The descriptions of these patterns focus on the notion of requesting fulfillment of a request. However most of these patterns are also applicable to requests for status change, requests for information, etc. If a pattern is limited in the types of execution it can trigger, this will be noted in the "limitations" section.

One of the key distinguishing characteristics in the patterns below is whether the pattern supports the tracking of the workflow's state by both the placer and the filler. The workflow state is represented by the Task resource. The Task state machine, which is also presented here, shows the use of Task.status to represent the general infrastructure state of the Task resource.

Diagram showing typical state machine for the Task resource

The combination of Task.status, Task.statusReason and Task.businessStatus provide the mechanism for tracking the workflow state. The following two examples illustrate how that could be accomplished with regards of specific workflows. Note that these examples avoid any specificity on where the described resources exist, or any reference to a specific communication pattern. The goal of the examples is to demonstrate the use of the Task attributes to represent the workflow state.

The following table shows the steps for a simple blood test order, and the corresponding values of the Task attributes. A lot of details on other attributes have been omitted in order to focus on the state changes.

Workflow step Task.status Task.statusReason Task.businessStatus
Provider orders a blood test for a patient. A ServiceRequest resource is created to represent the order, and a Task resource is created to represent the request to the lab. Task.basedOn points to the ServiceRequest instance. Requested New order Ordered
The lab accepts the order. Accepted Able to perform the test. Accepted
The patient is at the lab, and blood is drawn. In progress Obtained the specimen Specimen available
Work on the blood sample is in progress, preliminary results are available, a DiagnosticReport resource is created, and Task.output.value[1] references the DiagnosticReport resource. In progress Preliminary results available Preliminary results
Final results are available Complete Final results are available Final results

The following table shows the steps for a referral workflow, and the corresponding values of the Task attributes. A lot of details on other attributes have been omitted in order to focus on the state changes.

Workflow step Task.status Task.statusReason Task.businessStatus
Provider A is seeing a patient with a specific complaint. Based on the exam, Provider A refers the patient to a specialist at clinic B. It is an urgent referral, requesting to see the specialist within 4 days. A ServiceRequest resource is created to represent the referral order, and a Task resource is created with Task.priority set to Urgent, and Task.restriction.period.end set to 4 days in the future. Requested New referral Referred
Clinic B receives the referral and puts it on the urgent queue to be reviewed. Received Received by organization Pending
Upon reviewing the referral, the clinic determines they have no capacity to see the patient within the specified time period, and they decline the referral. Rejected Provider unavailable Declined
Provider A changes the referral request to clinic C. This creates a new Task resource, with the appropriate information Requested Changed the referred to provider Referred
Clinic C accepts the referral and it is placed on a scheduler's queue. Accepted Able to provide the service. Accepted
An appointment is scheduled for the patient at Clinic C. In progress Appointment scheduled Scheduled
Soon after the appointment is scheduled, the patient calls provider A to ask for a different location for the referral appointment, as he lost his transportation, and he cannot reach Clinic C. The provider requests a cancel for the referral. Suspended Patient unable to make appointment. Cancel requested
Clinic C confirms the cancellation of the existing task. In progress
Failed
Referral cancelled Cancelled as requested
Provider A changes the referral to Clinic D, which is located close to where the patient lives, and can be conveniently reached using public transportation. This creates a new Task resource, with the appropriate information. Requested Changed the referred to provider Referred
Clinic D accepts the referral and it is placed on a scheduler's queue. Accepted Able to provide the service. Accepted
An appointment is scheduled for the patient at Clinic D. In progress Appointment scheduled Scheduled
Patient is seen at Clinic D. A diagnosis is made by the specialist, a prescription is given, and a follow-up appointment is made at clinic D. Task.output.value[1] references a Compositions resource, which contains the encounter summary. In progress Intermediary consultation note available Preliminary notes
Patient comes for follow-up appointment at clinic D. The specialist is satisfied by the progress the patient has made and creates the final consultation note. Task.output.value[2] references a Compositions resource, which contains consultation note. Completed Final consultation note available Final notes

The patterns that facilitate the execution of workflow using the Task resource are grouped in the Workflow Management Patterns section. The patterns where no Task resource is used are grouped in the Ad-hoc Workflow Patterns section. The list of patterns is as follows:

Ad-Hoc Workflow Patterns
Option A: Simple RESTful POST or PUT
Option B: Direct POST of request to fulfiller's system
Option C: POST of request to placer/queue server system, receiver uses polling or subscription
Option D: Messaging request from placer to filler & acknowledgment
Option E: Services request from placer to filler & acknowledgment
Workflow Management Patterns
Option F: Creation of Task on placer's system
Option G: POST of Task to fulfiller's system
Option H: POST of Task to a workflow broker
Option I: POST of Task to fulfiller's system, POST of sub-Task on placer's system
Option J: Messaging Task from placer to fulfiller
Option K: Service request referencing Task from placer to fulfiller
Option L: Combining workflow approaches
Additional Scenarios and Variations