This page is part of the FHIR Specification v4.3.0-snapshot1: R4B Snapshot to support the Jan 2022 Connectathon. About the R4B version of FHIR. The current officially released version is 4.3.0. For a full list of available versions, see the Directory of published versions . Page versions: R5 R4B R4 R3 R2
Electronic Health Records Work Group | Maturity Level: N/A | Standards Status: Informative |
ISO/HL7 10781 EHR System Functional Model Release 2 provides a reference list of functions that may be present in an Electronic Health Record System. While FHIR is an implementation focused on exchange of information in healthcare, this often happens in the context of an EHR system and EHR record. This table briefly describes one way that FHIR can be used to meet the requirements described in the EHR-S FM and is provided to help readers of the FHIR specification understand how FHIR can be used. There are many other equally valid ways to implement the EHR-S FM and to make use of FHIR.
EHR Function | FHIR Implementation Notes | |
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TI.1 | Security | FHIR defines parts of the security infrastructure, and delegates others to standard web-based security frameworks |
TI.1.1 | Entity Authentication | FHIR assumes that the users are authenticated. OAuth is the preferred mechanism |
TI.1.2 | Entity Authorization | FHIR does not currently provide any resources to describe or manage access-control permissions. By default, underlying web frameworks such as SAML would be used. See the security section for a discussion of binding between FHIR and SAML |
TI.1.3 | Entity Access Control | See above about SAML / OAuth |
TI.1.4 | Patient Access Management | See Security Labels |
TI.1.5 | Non-Repudiation | The provenance resource tracks the timestamps, actors, and digital signatures associated with resources |
TI.1.6 | Secure Data Exchange | TLS (https:) should be used for all production exchange of data. All conformant FHIR RESTful implementations SHALL be able to use TLS |
TI.1.7 | Secure Data Routing | FHIR allows for brokers and various forms of messaging that support assured destinations and delivery (also see IN.2.2 below) |
RI.1.1.4 | Information Attestation | See the provenance resource |
TI.1.8 | Patient Privacy and Confidentiality | FHIR does not include functionality related to this requirement, though implementations would be expected to provide this |
RI.1.1 | Health Record Information and Management | This is a core application of the FHIR capabilities |
RI.1.22 | Data Retention, Availability and Destruction | A FHIR RESTful server gives precise and fine-grained control of retention, availability and destruction of resources, all clearly described by the capability statement |
RI.1.1.x.1 | Auditable Records | FHIR provides the AuditEvent resource for auditable records. |
RI.2 | Synchronization | FHIR supports synchronization using standard web publication/subscription methods via Bundles. Bundle-based pub/sub may be push or pull based, and can include all resources of a particular type, or selected subsets of the resources. In addition, groups of resources can be exchanged in bundles, keeping a set of related resources in synchronization |
RI.1.1.13 | Extraction of Health Record Information | FHIR does not provide report formats, but does provide extensive search and retrieval functions to assist with building such reports |
RI.1.1.1 | Store and Manage Health Record Information | A FHIR RESTful server can store and manage health information persistently - see below for further information. |
RI.1.2.1 | Manage Structured and Unstructured Health Record Information | The dual contents of FHIR resources - structured data and XHTML narrative - provide seamless support for dealing with a mix of structured and unstructured information |
TI.3 | Registry and Directory Services | The FHIR Administration resources provide registry-based access to patients, providers, etc. |
TI.4 | Standard Terminologies and Terminology Services | FHIR encourages the use of standard terminologies wherever possible, and provides full support for their use through a variety of terminology related data types. FHIR defines a terminology service infrastructure. Also, see profiling, which discusses how terminology is used in a FHIR context |
TI.5 | Standards-based Interoperability | FHIR is a definition of a standard on which to base interoperability |
TI.5.1 | Interchange Standards | This is the core focus of FHIR. See below for discussion of interaction modes |
TI.5.2 | Interchange Standards Versioning and Maintenance | FHIR version maintenance is described here |
TI.5.3 | Standards-based Application Integration | FHIR enables simple integration through use of an easy to understand, use, and debug web-based infrastructure. The same framework used within an EHR for data persistence can also offer a simple way to implement data exchange |
TI.5.4 | Interchange Agreements | The FHIR Conformance Statement and Resource Profile resources provide a registry-based infrastructure for individual trading partner agreements, as well as for community based ones |
TI.6 | Business Rules Management | FHIR does not currently address this requirement |
TI.7 | Workflow Management | FHIR does not currently address this requirement, though the resources and services exist to support this functionality |
The EHR system functional model describes several modes for interaction between systems. Each of these can be implemented in several different ways using FHIR
Interaction Modes | FHIR Options |
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Unsolicited Notifications e.g. a patient has arrived for a clinic appointment |
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Query/Response e.g. Is Adam Everyman known to the system? Yes, MRN is 12345678. |
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Service Request and Response e.g. Laboratory Order for Fasting Blood Sugar and a response containing the results of the test. | Could be supported either through Messaging or SOA solutions. Request/Response support is not yet defined |
Information Interchange between organizations (e.g. in a RHIO, or in a National Health System) |
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Structured / Unstructured clinical document, e.g. dictated surgical note | See the Documents |
The combination of a properly secured and managed FHIR server, along with enforced use of the AuditEvent and Provenance resources ensures that the core record management functions defined in the EHR-S FM are met (as follows). See the FHIR Record Lifecycle Event Implementation Guide for additional details.
Additional functionality, not currently defined in FHIR, is required to ensure non-repudiation, access control, and consent tracking.