Project Overview

Problem

• There are a number of key stakeholders (Patients, Prescribers, Nurses, Office Administrators, Pharmacists, REMS Administrators and Pharmaceutical Manufacturers) who play an important role in the REMS workflow of prescribing a drug to the patient. This includes verification of completed REMS requirements and dispensing the drug to the patient. There currently is no unified way to share data between REMS stakeholders.​
• Due to the lack of standardization and interoperability:
  • There is difficulty in communication and coordination of efforts amongst stakeholders in the REMS workflows.
  • The current processes used to implement REMS requirements are burdensome, costly and can impact patient access.
• REMS are not built into current workflows and the complexity of these programs leads to additional burden on stakeholders and the overall healthcare system.
• All of these challenges hampers communication and coordination amongst REMS stakeholders resulting in delays in therapy, potential decrease in access to REMS drugs, and inefficient patient care.​

Description

• REMS is integrated into prescriber and pharmacist workflows, allowing them to easily complete the necessary REMS requirements without having to open a separate portal or remember additional steps for handling a REMS
• REMS integration allows prescribers to be alerted that a drug requires REMS education and training and any additional clinical actions needed (e.g., monthly liver enzyme monitoring, lab tests, etc.) to adhere to the requirements of the REMS program without having to manually look up this information
• ​Prescribers are able to easily submit the necessary information in their current workflow, allowing them to fulfill or attest to REMS requirements
  
  • Structured data is used for populating REMS requirements, helping to automate the process and reduce the burden of manual entry
  • Capture of a completed REMS is integrated in a claim and documented in prescriber's clinical notes
• When a request is received to dispense a REMS drug, pharmacists are able to easily confirm, within their current workflow, that REMS requirements have been met 
  • Pharmacists are able to easily look up data that prescribers submitted and which has been verified for certification by a REMS Administrator
• ​Patients receive or are administered the REMS drug in a timely manner with minimal effort or burden on their part​

Target Outcome

• Create an interoperable, efficient, and effective REMS ecosystem. This interoperable ecosystem would be established via a standards-based technical framework for REMS integration into workflows. This will enable data sharing, reduce stakeholder burden and cost, increase access to REMS drugs, and optimize patient care for therapies that require a REMS.

Value

• All REMS stakeholders are able to access the right data at the right time in order to carry out their tasks efficiently and effectively
• REMS workflow is accurate, timely, and easy for stakeholders, allowing for more time spent with the patient and ultimately an improved experience, improved patient care and outcomes
• Patients are able to access REMS drugs as part of their care
• In the future, standardization of REMS data could support REMS assessment reports, along with evaluation and updating of REMS over time in a data driven manner

REMS Proof-of-Concept Prototype

MITRE and FDA are working together to develop an open source proof-of-concept prototype that leverages data standards and technology to integrate REMS into the health care system, with a focus on stakeholder workflows. The aim for this prototype is to demonstrate the art of the possible with technical REMS integration and to help drive conversations with the community around opportunities to enhance REMS.

The current iteration of the prototype (REMSv0.13) builds upon previous prototype releases (prescriber workflow, prescriber/pharmacist interaction, and REMS administrator workflow) and focuses on:

• Test Launching of the SMART on FHIR application with the Logica Sandbox demonstrating a SMART launch
• Integration of the prototype with the Logica Sandbox for cds-hooks
• Differentiation of UI of card links depending on if a link is to a PDF or is a SMART App link for improved user experience
• Removal of duplicate VSAC caching code in rems-admin
• Functionality to support order-select hook in rems-admin
• Completed full stack testing of Docker in Windows environment
• Prepopulation of patient status forms
• Request Generator UI/UX Updates
• Hide Cards UI at start and show number of cards loaded
• Update patient selection functionality
• Updated button and information box display based on Patient, MedicationRequest, or QuestionnaireResponse selected
• Update of tagging of different releases for consistency
• Update of GitHub main branches to now only allow authorized merges into production branches
• Use of ETASU status to determine which links to return in CDS Hooks card
• Research of SMART on FHIR dependabot changes
• Documentation Updates
• Renaming of repositories
• REMS to rems-admin
• crd-request-generator to request-generator
• Fixes to the following bugs/issues:
• Fixed SMART on FHIR application questionnaire filter button
• Fixed SMART on FHIR application tabs bug
• Fixed issue with PIMS hot reloading in developer Docker environment
• Fixed version issues in rems-setup docker-compose file
• Fixed PIMS “No Orders” bug
• Fixed Keycloak admin and timeout issues
• SMART on FHIR application:
• Rearrangement of user interface to place the patient information on the left
• Send order-select CDS Hook when choosing MedicationRequest

Any and all feedback on the prototype is welcome!

Instructions for setting up the prototype: https://github.com/mcode/rems-setup/blob/main/SimpleSetupGuide.md 

The REMS integration proof-of-concept prototype leverages existing DaVinci burden reduction specifications as a starting point. In particular, the prototype uses the Documentation Templates and Rules (DTR) and Coverage Requirements Discovery (CRD) implementation guides (IGs) as a basis for the prototype. The REMS ecosystem has unique requirements which will drive standards development activities for REMS integration. These may represent new standards, and/or expansions upon existing specifications.

The following are links to the code repositories used in the prototype:             

• rems-setup: https://github.com/mcode/rems-setup/releases/tag/0.13
• pims: https://github.com/mcode/pims/releases/tag/0.13
• request-generator: https://github.com/mcode/request-generator/releases/tag/0.13
• rems-admin: https://github.com/mcode/rems-admin/releases/tag/0.13
• test-ehr: https://github.com/mcode/test-ehr/releases/tag/0.13
• smart-on-fhir-app: https://github.com/mcode/rems-smart-on-fhir/releases/tag/0.13
• rems-cds-hooks: https://github.com/mcode/rems-cds-hooks/releases/tag/0.13
• cql-to-fhir-library:  https://github.com/mcode/cql-to-fhir-library/releases/tag/0.13

The mcode/REMS repository is licensed under Apache License 2.0.

Project Plan

Use Case Team

If you'd like to learn more about this use case, please contact kelee.petzelt@pocp.com