3,138 FHIR-related articles (latest first)
The content demonstrates a technical route for converting HL7 FHIR JSON data into the X12 278 standard. This process utilizes the PilotFish eiConsole platform to manage the data transformation.
Synthetic EHR announced the development of a comprehensive API ecosystem. This system is designed to facilitate technical integrations and strategic partnerships, specifically supporting the advancement of healthcare artificial intelligence.
A JSON representation for the PCA Type (2.8 - 1.0.0) vocabulary was made available. This resource utilizes the HL7 FHIR Standard and is accessible via FHIR Build Tools.
A new LOINC code, 586-8, has been established for reporting the presence of Streptococcus agalactiae in a specimen. This code supports standardized data exchange for microbiology results using FHIR standards.
Security advisories and CVE details for FHIR R5 standards are available. These advisories help users manage vulnerabilities within the FHIR implementation.
HL7 is releasing updates to the Clinical Decision Support System Guidelines as part of the FHIR Specification. This update relates to the CI Build version of the FHIR standard.
HGear AI has developed a tool to convert C-CDA documents into FHIR bundles. The resulting FHIR bundle can be exported as a downloadable PDF, providing a readable view of all contained resources.
The topic of Quantum-Safe FHIR was discussed as a necessary evolution for future healthcare data security. This technology is viewed as a critical next step in building robust data security infrastructure.
A recent study established a strong correlation between CDISC standards and Alzheimer's disease data. This alignment suggests improved interoperability for clinical data related to neurodegenerative conditions.
Mount Sinai Tisch Cancer Center launched a new real-time data integration tool. This tool is designed to facilitate advanced research in bioengineering.
Google Cloud documented reference patterns for handling FHIR resource conversions. This documentation helps users understand how to map and transform various FHIR resource types.
A file specification for the External Validation Service Front-end was published. This relates to IHE Catalyst standards and FHIR technology.
The difficulty of working with raw FHIR JSON data was noted. This suggests that despite widespread adoption of FHIR APIs, technical teams still face challenges in data interpretation.
The International Patient Summary concept was updated to accept suggestions and modifications. This relates to using SQL on FHIR for easier health data analytics.
Outburn is enabling seamless two-way data exchange using the FHIR standard. This capability helps connect older, legacy healthcare systems with modern interoperability standards.
The LOINC Part Code LP403778-6, related to 'Neutrophil Cytoplasmic Ab atypical', was made available. This resource is accessible via the FHIR Server, indicating its integration into standardized healthcare data exchange.
Outburn is working to unify various laboratory data sources into standardized FHIR-compliant messages. This initiative aims to automate and streamline the process of lab test referrals between hospitals and community settings.
A new JSON representation for the FHIR vocabulary item 'Religion (2.1 - 1.0.0)' has been published. This update contributes to the standardization of health data related to religious information within the FHIR standard.
A hackathon focused on shared care records and FHIR standards is currently taking place. This event aims to improve data exchange and patient care through modern interoperability solutions.
Black Book Research released its 2026 Global State of Healthcare report. The report highlights the hardening of the data backbone in North America, referencing standards like FHIR, SNOMED CT, and LOINC.