Cham, Switzerland : , : Springer, , [2022]

©2022

9783030915636

9783030915629

1 online resource (481 pages)

Health Informatics

362.110285

Health services administration - United States - Data processing

Medical informatics

Inglese

Intro -- Foreword -- Foreword -- Preface -- Acknowledgments -- About This Book -- References -- Contents -- Part I: Perspective -- Chapter 1: A Brief History and Overview of Health Informatics -- 1.1 Introduction -- 1.2 Early Electronic Records and Clinical Decision Support -- 1.3 Health Information Exchange -- 1.4 The Interoperability Challenge -- 1.5 Exciting, Transformational Times -- 1.6 A Pivotal Point -- References -- Chapter 2: The US Health Care System -- 2.1 Introduction -- 2.2 High Costs, Mediocre Results -- 2.3 The Uninsured Can Raise Costs -- 2.4 The Payment Model -- 2.5 Alternate Payment Models -- 2.6 Wasteful Spending -- 2.7 Chronic Disease Drives Most Costs -- 2.8 Alternate Care Models: Health Maintenance Organizations (HMOs) -- 2.9 Alternate Care Models: The Patient Centered Medical Home (PCMH) -- 2.10 Alternate Payment Models: Accountable Care Organizations (ACOs) -- 2.11 The Role of Health Informatics in Value-Based Care -- 2.12 A Learning Health System -- 2.13 Informatics for a Learning Health System -- 2.14 Recap -- References -- Chapter 3: Health Informatics in the Real World -- 3.1 Introduction -- 3.2 Hospital EHR Adoption and Functionality Challenges -- 3.3 Similar Provider EHR Challenges -- 3.4 The HITECH Program -- 3.5 Health IT Certification -- 3.6 Meaningful Use -- 3.7 Physician EHR Satisfaction -- 3.8 EHR Challenges -- 3.9 A Universal Health App Platform -- 3.10

Innovative EHR Functionality -- 3.11 Recap -- References -- Part II: Beyond Direct Patient Care -- Chapter 4: The Empowered Patient -- 4.1 Introduction -- 4.2 Personal Health Records -- 4.3 A Personally Controlled Health Record (PCHR) -- 4.4 PHR Challenges -- 4.5 Bridge Patient Portal -- 4.6 Apple's FHIR-Based Health App -- 4.7 Blue Button -- 4.8 OpenNotes® -- 4.9 Telecare -- 4.10 India on FHIR -- 4.11 MIDATA -- 4.12 eMediplan and HCI -- 4.13 Recap.

References -- Chapter 5: Health Information Exchange -- 5.1 Introduction -- 5.2 The Interoperability Challenge -- 5.2.1 Transport Interoperability -- 5.2.2 Structured Interoperability -- 5.2.3 Semantic Interoperability -- 5.3 The HL7 Clinical Information Modeling Initiative -- 5.4 PenRad Applicadia Video -- 5.5 Semantic Interoperability Through Machine Learning -- 5.6 Interoperability and Meaningful Use -- 5.7 HIPAA -- 5.8 Privacy -- 5.9 Security -- 5.10 Trust -- 5.11 Blockchain in Health Care -- 5.12 Health Information Exchange: Direct -- 5.13 Health Information Exchange: HL7 Messaging -- 5.14 Health Information Exchange: Semantic Interoperability -- 5.15 The Federated Model -- 5.16 The OneFlorida Clinical Research Consortium -- 5.17 CommonWell Health Alliance® -- 5.18 Data Lockers -- 5.19 The Future of Health Information Exchange -- 5.20 Diameter Health Fusion -- 5.21 InterSystems HealthShare -- 5.22 InteropEHRate -- 5.22.1 Interoperate Health Care Professional App -- 5.23 Final Thoughts -- References -- Chapter 6: FHIR Applications in Payment -- 6.1 Interoperability in the Payer Space -- 6.2 The Da Vinci Project -- 6.3 Humana -- 6.4 1upHealth -- 6.5 Gainwell Technologies -- 6.6 Surescripts® -- 6.7 Final Reflections -- 6.8 Recap -- References -- Part III: Interoperability Essentials -- Chapter 7: Data and Interoperability Standards -- 7.1 Introduction -- 7.2 Why Standards? -- 7.3 Standards Structure and Purpose Evolution -- 7.4 Standards Technology Evolution -- 7.5 The Key Data Standards -- 7.6 International Classification of Diseases -- 7.7 Current Procedural Terminology (CPT®) -- 7.8 Logical Observation Identifiers Names and Codes (LOINC®) -- 7.9 National Drug Codes (NDC) -- 7.10 RxNorm -- 7.11 SNOMED Clinical Terms (SNOMED CT) -- 7.12 Recap -- References -- Chapter 8: Pre-FHIR Interoperability and Decision Support Standards -- 8.1 Introduction.

8.2 HL7 Evolution -- 8.3 HL7 V2 Versus V3 -- 8.4 Reference Information Model (RIM) -- 8.5 RIM and FHIR -- 8.6 Clinical Document Architecture Uses RIM -- 8.7 C-CDA Templates -- 8.8 Clinical Decision Support (CDS) -- 8.9 Dr. Homer Warner's HELP System -- 8.10 MYCIN -- 8.11 Internist -- 8.12 Arden: A Standard for Medical Logic -- 8.13 Arden Explained -- 8.14 ArdenSuite -- 8.14.1 Fuzzy Arden Syntax -- 8.15 Other Tools for CDS Authoring and Dissemination -- 8.15.1 Infobuttons -- 8.15.2 MAGICapp -- 8.15.3 Zynx Health -- 8.16 Recap -- References -- Chapter 9: FHIR -- 9.1 The Origins of FHIR -- 9.2 Grahame's FHIR Philosophy -- 9.3 FHIR Modules -- 9.4 FHIR Resources -- 9.5 FHIR Resource Representations -- 9.6 FHIR Resource Examples -- 9.7 FHIR Resource Activity -- 9.8 FHIR Extensions -- 9.9 FHIR Resource IDs -- 9.10 FHIR Enabling Existing Systems -- 9.11 FHIR API -- 9.12 FHIR Profiles and Implementation Guides -- 9.13 FHIRPath -- 9.14 Public FHIR Servers -- 9.15 FHIR Development Platforms and Tools -- 9.15.1 Health Samurai -- 9.15.2 Georgia Tech Health Data Analytics Platform (HDAP) -- 9.15.3 Android FHIR SDK -- 9.16 FHIR Tools from the Land Down under -- 9.16.1 Australia's My Health Record -- 9.16.2 Insurance Information APIs -- 9.16.3 CDA Document APIs -- 9.16.4 Personal Health Summary APIs -- 9.16.5 Alcidion Miya Precision -- 9.16.6 Case Based Learning: CBL on FHIR -- 9.17 FHIR Accelerators -- 9.17.1 The Gravity Project -- 9.17.2 Vulcan -- 9.18 Other FHIR

Resources -- 9.19 FHIR Genomics -- 9.20 Recap -- References -- Chapter 10: SMART on FHIR -- 10.1 A Grand Challenge -- 10.2 SMART Evolution -- 10.3 SMART Technology Stack -- 10.4 Developer Support -- 10.5 OAuth2 -- 10.6 Scopes and Permissions -- 10.7 OpenID Connect -- 10.8 SMART App User and Access Authorization -- 10.9 SMART Backend Services -- 10.10 CDS Hooks -- 10.11 FHIR Bulk Data Access (Flat FHIR).

10.12 SMART Health Cards -- 10.13 SMART Markers -- 10.14 Sync for Science -- 10.15 A Healthcare System Develops SMART Apps -- 10.16 Graphite Health -- 10.17 Recap -- References -- Part IV: New Frontiers -- Chapter 11: mHealth -- 11.1 Patient Roles in Chronic Disease -- 11.2 Does mHealth Produce Positive Results? -- 11.3 mHealth Data Quality -- 11.4 The US Food and Drug Administration (FDA) -- 11.5 AliveCor® -- 11.6 Device and App Interoperability -- 11.7 Commercial mHealth Data Integrators -- 11.8 Open mHealth -- 11.9 Open mHealth Tools -- 11.10 Open mHealth to FHIR -- 11.11 Recap -- References -- Chapter 12: Public and Population Health -- 12.1 Introduction -- 12.2 The Roots of Public Health -- 12.3 Public Health Today -- 12.4 FHIR Genomics Reporting for Newborn Screening -- 12.5 The VCF File Format -- 12.6 CDC's Computable Clinical Guidelines -- 12.7 Opioid Appropriate Prescribing Use Case -- 12.8 WHO SMART Guidelines -- 12.9 Electronic Case Reporting -- 12.10 eCR Now -- 12.11 The Future of Public Health -- 12.12 Population Health -- 12.13 popHealth® -- 12.14 Health Sciences SC Bulk FHIR for Population Health -- 12.15 RIMIDI -- 12.16 Recap -- References -- Chapter 13: FHIR Applications Showcase -- 13.1 Increased Scope and Sophistication of FHIR Activity -- 13.2 DICOM on FHIR -- 13.3 The EU's InteropEHRate Andaman7 Patient App -- 13.4 The Sovereignty Network's Cure8 Patient FHIR App -- 13.5 mCODE™ and CodeX: A FHIR Standard for Cancer Care -- 13.6 MedWise®/Tabula Rasa HealthCare -- 13.7 Evidence Based Medicine -- 13.8 Evidence Based Medicine on FHIR -- 13.9 Recap -- References -- Postscript -- Useful Web Tools and Resources -- Glossary of Terms and Acronyms -- Index.