LEADER 08974nam 2200493 450 001 9910544874203321 005 20220928085256.0 010 $a9783030915636$b(electronic bk.) 010 $z9783030915629 035 $a(MiAaPQ)EBC6886831 035 $a(Au-PeEL)EBL6886831 035 $a(CKB)21167712000041 035 $a(PPN)260825980 035 $a(EXLCZ)9921167712000041 100 $a20220928d2022 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aHealth informatics on FHIR $ehow HL7's API is transforming healthcare /$fMark L. Braunstein 205 $aSecond edition. 210 1$aCham, Switzerland :$cSpringer,$d[2022] 210 4$d©2022 215 $a1 online resource (481 pages) 225 1 $aHealth Informatics 311 08$aPrint version: Braunstein, Mark L. Health Informatics on FHIR: How HL7's API Is Transforming Healthcare Cham : Springer International Publishing AG,c2022 9783030915629 327 $aIntro -- 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. 327 $aReferences -- 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. 327 $a8.2 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). 327 $a10.12 SMART Health Cards -- 10.13 SMART Markers -- 10.14 Sync for Science -- 10.15 A Healthcare System Develops SMART Apps -- 10.16 Graphite Health -- 10.17 Recap -- References -- Part IV: New Frontiers -- Chapter 11: mHealth -- 11.1 Patient Roles in Chronic Disease -- 11.2 Does mHealth Produce Positive Results? -- 11.3 mHealth Data Quality -- 11.4 The US Food and Drug Administration (FDA) -- 11.5 AliveCor® -- 11.6 Device and App Interoperability -- 11.7 Commercial mHealth Data Integrators -- 11.8 Open mHealth -- 11.9 Open mHealth Tools -- 11.10 Open mHealth to FHIR -- 11.11 Recap -- References -- Chapter 12: Public and Population Health -- 12.1 Introduction -- 12.2 The Roots of Public Health -- 12.3 Public Health Today -- 12.4 FHIR Genomics Reporting for Newborn Screening -- 12.5 The VCF File Format -- 12.6 CDC's Computable Clinical Guidelines -- 12.7 Opioid Appropriate Prescribing Use Case -- 12.8 WHO SMART Guidelines -- 12.9 Electronic Case Reporting -- 12.10 eCR Now -- 12.11 The Future of Public Health -- 12.12 Population Health -- 12.13 popHealth® -- 12.14 Health Sciences SC Bulk FHIR for Population Health -- 12.15 RIMIDI -- 12.16 Recap -- References -- Chapter 13: FHIR Applications Showcase -- 13.1 Increased Scope and Sophistication of FHIR Activity -- 13.2 DICOM on FHIR -- 13.3 The EU's InteropEHRate Andaman7 Patient App -- 13.4 The Sovereignty Network's Cure8 Patient FHIR App -- 13.5 mCODE? and CodeX: A FHIR Standard for Cancer Care -- 13.6 MedWise®/Tabula Rasa HealthCare -- 13.7 Evidence Based Medicine -- 13.8 Evidence Based Medicine on FHIR -- 13.9 Recap -- References -- Postscript -- Useful Web Tools and Resources -- Glossary of Terms and Acronyms -- Index. 410 0$aHealth informatics. 606 $aHealth services administration$zUnited States$xData processing 606 $aMedical informatics 615 0$aHealth services administration$xData processing. 615 0$aMedical informatics. 676 $a362.110285 700 $aBraunstein$b Mark L.$0954568 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 912 $a9910544874203321 996 $aHealth Informatics on FHIR$92706147 997 $aUNINA LEADER 04166nam 22005175 450 001 9910255458203321 005 20200705002526.0 010 $a3-319-70619-5 024 7 $a10.1007/978-3-319-70619-1 035 $a(CKB)3790000000544701 035 $a(DE-He213)978-3-319-70619-1 035 $a(MiAaPQ)EBC5214991 035 $a(PPN)223955965 035 $a(EXLCZ)993790000000544701 100 $a20180103d2017 u| 0 101 0 $aeng 135 $aurnn|008mamaa 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aAdvances in Dynamic and Mean Field Games $eTheory, Applications, and Numerical Methods /$fedited by Joseph Apaloo, Bruno Viscolani 205 $a1st ed. 2017. 210 1$aCham :$cSpringer International Publishing :$cImprint: Birkhäuser,$d2017. 215 $a1 online resource (XIX, 363 p. 51 illus., 31 illus. in color.) 225 1 $aAnnals of the International Society of Dynamic Games,$x2474-0179 ;$v15 311 $a3-319-70618-7 320 $aIncludes bibliographical references at the end of each chapters. 327 $aNon-Memoryless Pedestrian Flow in a Crowded Environment with Target Sets -- Limit Game Models for Climate Change Negotiations -- A Segregation Problem in Multi-Population Mean-Field Games -- Evolutionary Game of Coalition Building under External Pressure -- The Execution Problem in Finance with Major and Minor Traders -- Mean-Field Limits through Local Interactions -- Differential Games in Healthcare Markets -- Open-Loop Nash Equilibria for Dynamic Games Involving Volterra Integral Equations -- A Discrete Model of Conformance Quality and Advertising in Supply Chains -- Sexual Reproduction as Bet-Hedging -- On Exact Construction of Solvability Set for Differential Games with Simple Motion and Non-Convex Terminal Set -- Effects of Players' Random Participation to the Stability in LQ Games -- Interval Computing of the Viability Kernel with Application to Robotic Collision Avoidance -- On Linear-Quadratic Gaussian Dynamic Games -- Visibility Approach to Aircraft Control in Windshear Conditions -- Modeling Autoregulation of Cerebral Blood Flow using Viability Approach. 330 $aThis contributed volume considers recent advances in dynamic games and their applications, based on presentations given at the 17th Symposium of the International Society of Dynamic Games, held July 12-15, 2016, in Urbino, Italy. Written by experts in their respective disciplines, these papers cover various aspects of dynamic game theory including mean-field games, stochastic and pursuit-evasion games, and computational methods for dynamic games. Topics covered include Pedestrian flow in crowded environments Models for climate change negotiations Nash Equilibria for dynamic games involving Volterra integral equations Differential games in healthcare markets Linear-quadratic Gaussian dynamic games Aircraft control in wind shear conditions Advances in Dynamic and Mean-Field Games presents state-of-the-art research in a wide spectrum of areas. As such, it serves as a testament to the continued vitality and growth of the field of dynamic games and their applications. It will be of interest to an interdisciplinary audience of researchers, practitioners, and graduate students. 410 0$aAnnals of the International Society of Dynamic Games,$x2474-0179 ;$v15 606 $aGame theory 606 $aGame Theory, Economics, Social and Behav. Sciences$3https://scigraph.springernature.com/ontologies/product-market-codes/M13011 606 $aGame Theory$3https://scigraph.springernature.com/ontologies/product-market-codes/W29020 615 0$aGame theory. 615 14$aGame Theory, Economics, Social and Behav. Sciences. 615 24$aGame Theory. 676 $a519.3 702 $aApaloo$b Joseph$4edt$4http://id.loc.gov/vocabulary/relators/edt 702 $aViscolani$b Bruno$4edt$4http://id.loc.gov/vocabulary/relators/edt 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910255458203321 996 $aAdvances in Dynamic and Mean Field Games$91563083 997 $aUNINA