NOTE: This is a fork of the Pain Management Summary application in support of the AHRQ Clinical Decision Support for Chronic Pain Management project that adds shared-decision making capabilities to the Pain Management Summary. Although the work was originally done as a fork with the intention of submitting back to the Pain Management Summary, the feature set and focus of the project is sufficiently different that a full contribution is not possible.
The Pain Management Summary SMART on FHIR application was developed to support the pilot of the CDS artifact, Factors to Consider in Managing Chronic Pain: A Pain Management Summary. This artifact presents a variety of key "factors" for clinicians to consider when assessing the history of a patient's chronic pain. These factors include subjective and objective findings, along with recorded treatments and interventions to inform shared decision making on treatments moving forward.
The Pain Management Summary SMART on FHIR application was piloted during Summer 2018. Local modifications and development were needed to fully support this application in the pilot environment. For example, custom development was needed to expose pain assessments via the FHIR API. See the pilot reports for more information.
This application was originally piloted with support for FHIR DSTU2. The app has been updated since the pilot to also support FHIR R4, although pilot R4 support has not been piloted in a clinical setting. In addition, value sets and standardized codes have been updated since the pilot. See the comments in the bundled CQL for details.
Taking steps to ensure accessibility by the widest range of users, an accessibility subject matter expert performed a review of the application, enumerated issues found, and provided recommended remediations. In addition to the recommendations, the Mozilla ARIA Accessibility reference was used to address issues. The application was then manually tested using accessibility tools including JAWS, VoiceOver, and the WebAIM Contrast Checker.
This prototype application is part of the CDS Connect project, sponsored by the Agency for Healthcare Research and Quality (AHRQ), and developed under contract with AHRQ by MITRE's CAMH FFRDC.
For information about contributing to this project, please see CONTRIBUTING.
The Pain Management Summary is a web-based application implemented with the popular React JavaScript framework. The application adheres to the SMART on FHIR standard, allowing it to be integrated into EHR products that support the SMART on FHIR platform. To ensure the best adherence to the standard, the Pain Management Summary application uses the open source FHIR client library provided by the SMART Health IT group.
The logic used to determine what data to display in the Pain Management Summary is defined using CQL and integrated into the application as the corresponding JSON ELM representation of the CQL. The application analyzes the JSON ELM representation to determine what data is needed and then makes the corresponding queries to the FHIR server.
Once the necessary FHIR data has been retrieved from the EHR, the open source CQL execution engine library is invoked with it and the JSON ELM to calculate the structured summary of the data to display to the user. This structured summary is then used by the React components to render a user-friendly view of the information.
This CDS logic queries for several concepts that do not yet have standardized codes. To support this, the following local codes have been defined:
Code | System | Display |
---|---|---|
SQETOHUSE | http://cds.ahrq.gov/cdsconnect/pms | Single question r/t ETOH use |
SQDRUGUSE | http://cds.ahrq.gov/cdsconnect/pms | Single question r/t drug use |
MME | http://cds.ahrq.gov/cdsconnect/pms | Morphine Milligram Equivalent (MME) |
Systems integrating the Pain Management Summary will need to expose the corresponding data as observations using the codes above. As standardized codes become available, these local codes will be replaced.
- Install Node.js (LTS edition, currently 12.x)
- Install Yarn (1.3.x or above)
- Install dependencies by executing
yarn
from the project's root directory - If you have a SMART-on-FHIR client ID, edit
public/launch-context.json
to specify it - NOTE: The launch context contains
"completeInTarget": true
. This is needed if you are running in an environment that initializes the app in a separate window (such as the public SMART sandbox). It can be safely removed in other cases. - If you'll be launching the app from an Epic EHR, modify
.env
to setREACT_APP_EPIC_SUPPORTED_QUERIES
totrue
- Serve the code by executing
yarn start
(runs on port 8000)
The Pain Management Summary can be deployed as static web resources on any HTTP server. There are several customizations, however, that need to be made based on the site where it is deployed.
- Install Node.js (LTS edition, currently 12.x)
- Install Yarn (1.3.x or above)
- Install dependencies by executing
yarn
from the project's root directory - Modify the
homepage
value inpackage.json
to reflect the path (after the hostname) at which it will be deployed a. For example, if deploying to https://my-server/pain-mgmt-summary/, thehomepage
value should be"http://localhost:8000/pain-mgmt-summary"
(note that the hostname need not match) b. If deploying to the root of the domain, you can leavehomepage
as"."
- Modify the
clientId
inpublic/launch-context.json
to match the unique client ID you registered with the EHR from which this app will be launched - NOTE: The launch context contains
"completeInTarget": true
. This is needed if you are running in an environment that initializes the app in a separate window (such as the public SMART sandbox). It can be safely removed in other cases. - If you've set up an analytics endpoint (see below), set the
analytics_endpoint
andx_api_key
inpublic/config.json
- If you'll be launching the app from an Epic EHR, modify
.env
to setREACT_APP_EPIC_SUPPORTED_QUERIES
totrue
a. This modifies some queries based on Epic-specific requirements - Run
yarn build
to compile the code to static files in thebuild
folder - Deploy the output from the
build
folder to a standard web server
Optionally to step 9, you can run the static build contents in a simple Node http-server via the command: yarn start-static
.
NOTE: This feature is no longer supported within this repository. The terminology process for PainManager is now part of the CDS4CPM implementation guide. See the terminology page of that IG for more information.
The value set content used by the CQL is cached in a file named valueset-db.json
. If the CQL has been modified to add or remove value sets, or if the value sets themselves have been updated, you may wish to update the valueset-db.json with the latest codes. To do this, you will need a UMLS Terminology Services account.
To update the valueset-db.json
file:
- Run
node src/utils/updateValueSetDB.js UMLS_USER_NAME UMLS_PASSWORD
(replacing UMLS_USER_NAME and UMLS_PASSWORD with your username and password)
To execute the unit tests:
- Run
yarn test
Run the app via one of the options above, then:
- Browse to http://launch.smarthealthit.org/
- Select
R2 (DSTU2)
orR4
from the FHIR Version dropdown - In the App Launch URL box at the bottom of the page, enter:
http://localhost:8000/launch.html
- Click Launch App!
- Select a patient
Testing this SMART App is more meaningful when we can supply test patients that exercise various aspects of the application. Test patients are represented as FHIR bundles at src/utils/dstu2_test_patients
and r4_test_patients
. To upload the test patients to the public SMART sandbox:
- Run
yarn upload-test-patients
This adds a number of patients, mostly with the last name "Jackson" (for example, "Fuller Jackson" has entries in every section of the app). The SMART sandbox may be reset at any time, so you may need to run this command again if the database has been reset.
The SMART launcher has a bug that doesn't allow IE 11 to enter the launch URL. This makes testing in IE 11 very difficult. To overcome this, you can reconfigure the app as a standalone app. To do so, follow these steps:
- Overwrite the
/public/launch-context.json
file with these contents:{ "clientId": "6c12dff4-24e7-4475-a742-b08972c4ea27", "scope": "patient/*.read launch/patient", "iss": "url-goes-here" }
- Restart the application server
- Browse to http://launch.smarthealthit.org/
- Select
R2 (DSTU2)
orR4
from the FHIR Version dropdown - In Launch Type, choose Provider Standalone Launch
- Copy the FHIR URL in the FHIR Server URL box at the bottom of the page (e.g.,
http://launch.smarthealthit.org/v/r2/sim/eyJoIjoiMSIsImkiOiIxIiwiaiI6IjEifQ/fhir
) - Paste it into
/public/launch-context.json
file whereurl-goes-here
is - Browse to http://localhost:8000/launch.html
NOTE: Do not check in the modified launch-context.json!
The public Epic sandbox does not provide any synthetic patients that exercise the Pain Management Summary logic very well. For this reason, testing against the public Epic sandbox is generally only useful to prove basic connection capability.
Run the app via one of the options above, then:
- Browse to https://open.epic.com/Launchpad/Oauth2Sso
- Select a patient from the dropdown
- In the YOUR APP'S LAUNCH URL box, enter:
http://localhost:8000/launch.html
- In the YOUR APP'S OAUTH2 REDIRECT URL box, enter:
http://localhost:8000/
- Click Launch App
This app can post JSON-formatted analytic data to an endpoint each time the application is invoked.
The data that is posted reports whether or not the patient met the CDS inclusion criteria, lists each section and subsection of the summary (along with the number of entries in each subsection), and provides an overall count of entries. The basic form of the data is as follows:
{
"meetsInclusionCriteria": <boolean>,
"sections": [
{
"section": <stringName>,
"subSections": [
{ "subSection": <stringName>, "numEntries": <intCount> },
...
]
},
...
],
"totalNumEntries": <intCount>
}
To enable posting of analytics, configure the analytics_endpoint
and x_api_key
in the public/config.json
file. The default value is an empty string, which will not post any analytics.
To build with docker run:
docker build .
from the root directory. This is will build a container which serves content on port 80. You can run this with:
docker run -p 80:80 <hash>