3,138 FHIR-related articles (latest first)
CodePhusion is implementing FHIR standards to reshape how laboratory data is shared. This integration allows labs to seamlessly share data with hospitals and research partners.
PitchMeAI presented a solution focusing on balancing data modeling between FHIR and OMOP standards. This solution utilizes AI to facilitate patient data transformation.
A new method, Infherno, was presented for end-to-end synthesis of FHIR resources. This process converts free-form clinical notes into structured FHIR data.
The LOINC Code 19897-8, representing Carbon dioxide [Partial pressure] in Capillary blood, is now accessible via the FHIR Server. This update facilitates standardized data exchange for capillary blood gas measurements.
Perplexity and Health AI have joined forces to advance smart healthcare technology. The collaboration will leverage industry standards such as SMART on FHIR and Apple HealthKit.
Reveleer is building a Clinical Data Repository that is natively designed using FHIR standards. This solution aims to create a defensible longitudinal member record.
A security vulnerability, CVE-2026-33180, related to the exposure of sensitive information, was identified. This vulnerability affects implementations of HL7 FHIR, such as OffSeq HAPI FHIR.
A new LOINC code, 28973-6, has been published to standardize the representation of left contact lens prescriptions over the refraction axis. This code is available for implementation using the FHIR standard.
Winning Health and Odin Health presented a joint AI clinical solution at the HIMSS26 conference. This platform emphasizes FHIR-centric integration to accelerate clinical processes.
The LOINC Code 77702-9, which measures sensory complaints related to parkinsonism, has been made available via the FHIR Server. This resource supports standardized data exchange for neurological assessments.
Sundhed.dk published an update concerning the ehealth registration deadline extension. This update relates to FHIR element requirements for the registration deadline.
A reference architecture and integration pattern catalog for FHIR enabled healthcare was published. This resource provides guidance for implementing FHIR standards in healthcare systems.
Health Universe secured $6 million in funding. This capital will be used to integrate AI agents into various healthcare organizations, allowing access to patient records via TEFCA, FHIR, or direct upload.
CMS is implementing interoperability deadlines that require the use of FHIR standards. This puts payers and health plans under pressure to integrate their existing legacy systems.
Registration for the HL7 FHIR Fundamentals training is nearing its deadline. This training provides foundational knowledge regarding HL7 and FHIR standards.
A one-day academy was held by Agoria and HL7 Belgium Academy. The training focused on utilizing the HL7 FHIR standard and other interoperability standards to support the European Health Data Space (EHDS).
A health IT plan proposed by the Trump Team involves significant deregulation. Health groups have warned that this plan could negatively impact physician practices and health organizations.
The global market for HL7 FHIR compliance is projected to grow significantly, reaching an estimated value of USD 8.6 billion by 2036. This growth reflects the increasing global adoption and necessity of interoperability standards in healthcare.
A specific LOINC Part Code (LP402439-6) for 'Fine Granular Casts | Urine sediment' is available through the FHIR Server. This resource supports standardized coding for urine sediment analysis within the FHIR framework.
HL7 has released a new LOINC Part Code (LP408883-9) specifically for carbon dioxide settings in gas delivery systems. This addition enhances interoperability by providing standardized terminology for gas-related measurements within the FHIR framework.