Synthea™ is a Synthetic Patient Population Simulator. The goal is to output synthetic, realistic (but not real), patient data and associated health records in a variety of formats.Read our wiki for more information.Currently, Synthea™ features: Birth to Death Lifecycle Configuration-based statistics and demographics (defaults with Massachusetts Census data) Modular Rule System Drop in Generic Modules Custom Java rules modules for additional capabilities Primary Care Encounters, Emergency Room Encounters, and Symptom-Driven Encounters Conditions, Allergies, Medications, Vaccinations, Observations/Vitals, Labs, Procedures, CarePlans Formats FHIR® (STU3 v3.
This is the official support API for working with HL7 FHIR on the Microsoft .NET (dotnet) platform.This library provides: Class models for working with the FHIRdata model using POCO’s Xml and Json parsers and serializers A REST client for working with FHIR-compliant servers Helper classes to work with the specification metadata, most notably StructureDefinition and generation of differentials Validation of instances based on profiles Evaluation FhirPath expressions The library is currently split up in four parts:- Core (NuGet packages starting with Hl7.
FHIR® Fast Healthcare Interoperability Resources is a next generation standards framework created by HL7. It is used for transfer of clinical and administrative data between software applications used is by various healthcare providers.In this repository, you will find templates for setting up FHIR® servers from Firely and HAPI FHIR®.Firely has the open source Spark server, which supports Draft Standard for Trial Use 2 (DSTU2) and they also have a commercial server called vonk, which supports Standard for Trial Use 3 (STU3).
Spark is Furore’s public domain FHIR® server build in C#.Spark implements a major part of the FHIR® specification and has been used and tested during the past HL7 WGM Connectathons. Furore and the community, will keep enhancing this server to support the latest versions and add functionality, but we welcome who wants to support this effort and help us make Spark a better reference platform and playground for FHIR®.DSTU-1The source code in the branch dstu1/master is up-to-date with the version of Spark running at .
Based upon the 2013 ACC/AHA Guideline on the Assessment of Cardiovascular Risk and their Guideline on the Treatment of Blood Cholesterol to Reduce Atherosclerotic Cardiovascular Risk in Adults, this application allows users to estimate a 10-year and/or lifetime risk score for atherosclerotic cardiovascular disease (ASCVD). These scores are estimated based upon Pooled Cohort Equations and lifetime risk prediction tools. The application presents relevant patient vitals and labs that factor into the estimated score(s), with a user-friendly display of current and lowest possible risks in a bar-graph setting.
Crucible is a suite of open source testing tools for HL7® FHIR®. It is provided as a free service to the FHIR® development community to help promote correct FHIR® implementations. It currently can test for conformance to the FHIR® standard, score patient records for completeness, and generate synthetic patient data.We are actively seeking contributors. Visit our github page page for more information.
Dispensed medication histories, which are widely available in real time, are useful for alerting providers about poorly adherent patients and those who will be non-adherent several months later. The Medication Possession Ratio (MPR) monitor application uses an algorithm developed at Boston Children’s Hospital to predict poor medication adherence based on the patient’s prescription and fill history.
Iris Chatbot enables a patient to schedule a doctor’s appointment and order medication refills from within Facebook Messenger or iMessage. Appointments, Med Refills from your Favorite Messaging App using FHIR®. People use messaging apps like Facebook Messenger and iMessage on a daily (constant?) basis, much, much more compared to email or using a separate mobile app (or patient portal) specific to a hospital or pharmacy. We believe patients are much more engaged with their care provider if they can perform basic administrative tasks (scheduling, ordering medications, or viewing lab results) from within their mobile messaging apps that they already use heavily every day.
ClinDat is designed with two interfaces specifically optimized for the distinct needs of patients and physicians. For patients, we implemented an easy-to-use interface to complete standardized questionnaires useful for monitoring rheumatic disease. For physicians, ClinDat provides several clinical checklists (including a visual homunculus) and computes several useful rheumatologic scores. ClinDat provides simplified electronic entry for patients to complete MDHAQ/RAPID3 (multidimensional health assessment questionnaire/routine assessment of patient index data), for quantitative medical history data, which is useful to monitor patients with all rheumatic diseases including treat-to-target in rheumatoid arthritis (RA).
Simplifer.net is the leading HL7 FHIR registry and the most obvious place to start your FHIR project. The goal of Simplifier.net is to enhance interoperability by providing one entry to all open and available FHIR profiles in the registry. Use the search engine on Simplifier.net to find similar work by others. Contribute and share Everyone can contribute and share FHIR resources with co-workers and the community at large. Create a free account and upload FHIR resources.