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Clark's Essential PACS, RIS and Imaging Informatics [Hardback]

4.00/5 (7 ratings by Goodreads)
(External Lecturer, City University; Radiographer, London NW Healthcare NHS Trust, UK)
  • Formāts: Hardback, 248 pages, height x width: 198x129 mm, weight: 620 g, 20 Illustrations, color; 20 Illustrations, black and white
  • Sērija : Clark's Companion Essential Guides
  • Izdošanas datums: 24-Nov-2017
  • Izdevniecība: CRC Press
  • ISBN-10: 1138295701
  • ISBN-13: 9781138295704
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  • Cena: 158,75 €
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Clark's Essential PACS, RIS and Imaging InformaticsPalielināt
  • Formāts: Hardback, 248 pages, height x width: 198x129 mm, weight: 620 g, 20 Illustrations, color; 20 Illustrations, black and white
  • Sērija : Clark's Companion Essential Guides
  • Izdošanas datums: 24-Nov-2017
  • Izdevniecība: CRC Press
  • ISBN-10: 1138295701
  • ISBN-13: 9781138295704
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781138295704.html
Keywords:

Imaging informatics is a complex and historically rapidly changing field, knowledge of which is central to the practice of all imaging specialists. This convenient pocket guide provides the foundations of knowledge in informatics, allowing radiographers in training and in practice, assistant practitioners and other allied health professionals to understand, use and develop more efficient ways of imaging that will in turn deliver improved patient care.

Recenzijas

This convenient pocket guide provides the foundations of knowledge in informatics, allowing radiographers in training and in practice, to understand, use and develop more efficient ways of imaging that will in turn deliver improved patient care. I would recommend this book or several copies of this book to every healthcare IT department that supports imaging informatics and healthcare messaging in hospitals. - Dr Dewinder S Bhachu, Great Ormond Street Hospital for Children, London.

This book covers radiology image storing, data collection and distribution, and radiology information technology, all relating to continuing advances in radiology technology over the last two decades. The compact chapters offer succinct and to-the-point information and important subtopics in informatics. The book also makes good use of pictures, diagrams, and charts to further simplify the information. -David James Demick, BS(Froedtert Hospital)

I would recommend this book or several copies of this book to every healthcare IT department that supports imaging informatics and healthcare messaging in hospitals. -RAD Magazine, September, 2018 This convenient pocket guide provides the foundations of knowledge in informatics, allowing radiographers in training and in practice, to understand, use and develop more efficient ways of imaging that will in turn deliver improved patient care. I would recommend this book or several copies of this book to every healthcare IT department that supports imaging informatics and healthcare messaging in hospitals. - Dr Dewinder S Bhachu, Great Ormond Street Hospital for Children, London.

This book covers radiology image storing, data collection and distribution, and radiology information technology, all relating to continuing advances in radiology technology over the last two decades. The compact chapters offer succinct and to-the-point information and important subtopics in informatics. The book also makes good use of pictures, diagrams, and charts to further simplify the information.-David James Demick, BS(Froedtert Hospital)

I would recommend this book or several copies of this book to every healthcare IT department that supports imaging informatics and healthcare messaging in hospitals. -RAD Magazine, September, 2018

Foreword xiii
Preface xv
Contributors xvii
Acknowledgements xix
About the Author xxi
Abbreviations xxiii
Chapter 1 Informatics in Radiology
1(6)
What is Imaging Informatics?
1(1)
History and Development
1(3)
Human Factors
4(3)
Chapter 2 Basic IT for Radiographers
7(12)
Hardware
7(8)
Software
15(4)
Chapter 3 Image Acquisition
19(8)
Single Image Modalities
19(1)
Multi-Slice Modalities
20(1)
Hybrid Modalities
21(1)
Specialist Applications
21(5)
Engineering
26(1)
Chapter 4 PACS, Vendor Neutral Archives and Picture Storage
27(12)
Picture Archiving and Communication Systems
27(2)
Components
29(1)
Image Lifecycle Management
30(1)
Deconstructed PACS and Open Source PACS
31(1)
VNA
32(1)
Supplier Neutral Archives
33(1)
Enterprise Archives
33(1)
Image Viewing
33(1)
Importing and Exporting Images to a PACS
34(1)
Differences Between Departmental PACS
35(1)
Housekeeping
36(3)
Chapter 5 RIS, MPI and other Text Systems
39(10)
Radiology Information System
39(3)
Master Patient Index
42(2)
Electronic Patient Record
44(1)
eRequesting
44(1)
Dose Management/Dose Monitoring Software
44(1)
National Healthcare Numbers (National Patient Identifiers)
45(2)
Wider NHS Services
47(2)
Chapter 6 Integrating with other Systems
49(24)
Towards the Interoperability of Clinical Information Systems: A History
50(4)
Achieving Interoperability
54(1)
Infrastructure Decisions/Options
55(4)
Key Building Blocks of Interoperability
59(1)
Current Flows (with Limited Interoperability)
60(1)
Current Common Information Flows for Patients Needing Diagnostics
60(2)
Conceptual Future Interoperability Flows
62(11)
Chapter 7 Image Reporting and Interpretation
73(12)
Core Functions of Reporting
73(1)
Clinical Decision Support Input
74(1)
Informal Commenting and Alerting at Acquisition
75(1)
Reporting and Productivity Tools
76(6)
Modern Imaging Informatics Processes
82(3)
Chapter 8 DICOM
85(16)
History and Development
85(1)
The Function of DICOM
86(1)
Common DICOM Terms
87(2)
Basic DICOM File Movement Operations
89(1)
Conformance Statements
90(1)
Modality Performed Procedure Step
91(1)
Composite Instances
91(1)
The DICOM File
91(1)
The DICOM Header
92(1)
UIDs
92(2)
Public Tags versus Private Tags
94(2)
Photometric Interpretations
96(1)
Viewing DICOM Images Outside of PACS
96(1)
Cross-Enterprise Document Sharing for Imaging
97(1)
Principles of XDS-I
98(3)
Chapter 9 HL7
101(6)
History and Development
101(2)
The Function of HL7
103(1)
Inside a HL7 Message
103(2)
Message Types
105(1)
IHE
106(1)
FHIR
106(1)
Chapter 10 Data Sharing and Teleradiology
107(8)
History of Radiological Image Sharing
108(1)
Methods of Sharing Radiological Images
108(1)
Reasons for Sharing Radiological Data
109(1)
Electronic Sharing Methods
109(3)
The National Image Exchange Portal
112(1)
Regional Sharing
112(1)
North-West PACS Portal
113(1)
Teleradiology
113(2)
Chapter 11 QA and Medical Physics Considerations
115(12)
Display Monitors
115(3)
Reporting Environment
118(2)
Staff
120(1)
Business Continuity
121(1)
Disaster Recovery
122(1)
Image Acquisition Faults
123(1)
Testing
123(4)
Chapter 12 Clinicians' Information Needs: A Clinician's Perspective
127(14)
The Patient Journey: Radiographers as Producers, Clinicians as Consumers
128(4)
Traditional Medical Practice
132(1)
Modern Medical Practice
133(3)
Patient's Evolving Consumer Profile
136(1)
Evolving Patient Profile
136(1)
Evolving Producers
137(1)
Current Frustrations
138(1)
Image Sharing
138(2)
The Ideal Relationship
140(1)
Chapter 13 Informatics and the Wider Commissioning Environment
141(12)
Public Sector Procurement
141(1)
Procurement Overview
142(3)
Restricted Procedure and Competitive Dialogue Procedure
145(3)
Output-Based Specification
148(2)
PQQ Stage
150(1)
ITT
151(1)
Alternatives to OJEU Procurement
152(1)
Chapter 14 Informatics and the Law
153(16)
Data + Context = Information
153(2)
Information Types
155(1)
Caldicott Principles
156(1)
Regulations
157(4)
Social Media
161(1)
Informatics Policies and Procedures
162(1)
Human Factors
163(6)
Chapter 15 The IT Department's Perspective: Providing a Safe and Efficient IT Service 24/7
169(12)
Enterprise Integration and Service Management
169(1)
Architecture (where does it run from?)
170(2)
Licensing
172(1)
Security
173(4)
Project Management
177(2)
Programme Management
179(1)
Risk Management
180(1)
Chapter 16 Education using a PACS
181(10)
Historic Educational Methods
181(1)
Virtual Learning
182(1)
Practice Simulation
183(2)
Anatomy Teaching
185(2)
Image Interpretation and Reporting
187(4)
Chapter 17 Professionalism: Development and Career Progression in Informatics
191(12)
What Do PACS Radiographers Do?
192(1)
The Five Facets of PACS Management
193(1)
Career Progression
194(1)
What Opportunities are There?
194(4)
Forming a Functional Imaging Informatics (PACS) Team
198(1)
Resourcing and Skill Sets of the (PACS) Team
199(2)
Outside Radiology
201(1)
Organisations of Interest
201(2)
Organisations of Interest 203(2)
Resources 205(8)
Index 213
Qualified as a Diagnostic Radiographer, Alexander Peck began working with informatics as a Senior Radiographer at the North West London Hospitals NHS Trust, followed by several years as the former Information Systems Manager at the Royal Brompton & Harefield NHS Foundation Trust. He is the director of a medical informatics consultancy firm plus organiser of the highly popular national imaging informatics education sessions for Radiographers and PACS Professionals. Alexander now concentrates on teaching and research, promoting Imaging Informatics education internationally and continues to champion a research based approach to further developing the better integration of informatics into clinical practice. He has been awarded Chartered I.T. Professional status by the British Computer Society, and is an active member of the SCoR IM+T Advisory Group.