Читать книгу A Comprehensive Guide to Radiographic Sciences and Technology - Euclid Seeram - Страница 2
Table of Contents
Оглавление1 Cover
5 Foreword
6 Preface PURPOSE CORE OBJECTIVES USE OF THESE OBJECTIVES AND CONTENT
8 SECTION 1: Introduction 1 Radiographic sciences and technology: an overview RADIOGRAPHIC IMAGING SYSTEMS: MAJOR MODALITIES AND COMPONENTS RADIOGRAPHIC PHYSICS AND TECHNOLOGY RADIATION PROTECTION AND DOSE OPTIMIZATION Bibliography 2 Digital radiographic imaging systems: major components FILM‐SCREEN RADIOGRAPHY: A SHORT REVIEW OF PRINCIPLES DIGITAL RADIOGRAPHY MODALITIES: MAJOR SYSTEM COMPONENTS IMAGE COMMUNICATION SYSTEMS References
9 SECTION 2: Basic Radiographic Sciences andTechnology 3 Basic physics of diagnostic radiography STRUCTURE OF THE ATOM ENERGY DISSIPATION IN MATTER TYPES OF RADIATION X‐RAY GENERATION X‐RAY PRODUCTION X‐RAY EMISSION X‐RAY BEAM QUANTITY AND QUALITY INTERACTION OF RADIATION WITH MATTER RADIATION ATTENUATION RADIATION QUANTITIES AND UNITS Bibliography 4 X‐ray tubes and generators PHYSICAL COMPONENTS OF THE X‐RAY MACHINE COMPONENTS OF THE X‐RAY CIRCUIT TYPES OF X‐RAY GENERATORS THE X‐RAY TUBE: STRUCTURE AND FUNCTION SPECIAL X‐RAY TUBES: BASIC DESIGN FEATURES HEAT CAPACITY AND HEAT DISSIPATION CONSIDERATIONS X‐RAY BEAM FILTRATION AND COLLIMATION References 5 Digital image processing at a glance DIGITAL IMAGE PROCESSING CHARACTERISTICS OF DIGITAL IMAGES GRAY SCALE PROCESSING CONCLUSION References 6 Digital radiographic imaging modalities: principles and technology COMPUTED RADIOGRAPHY FLAT‐PANEL DIGITAL RADIOGRAPHY DIGITAL FLUOROSCOPY DIGITAL MAMMOGRAPHY DIGITAL TOMOSYNTHESIS AT A GLANCE References 7 Image quality and dose THE PROCESS OF CREATING AN IMAGE IMAGE QUALITY METRICS ARTIFACTS IMAGE QUALITY AND DOSE References
10 SECTION 3: Computed Tomography 8 The essential technical aspects of computed tomography1 BASIC PHYSICS TECHNOLOGY MULTISLICE CT: PRINCIPLES AND TECHNOLOGY IMAGE POSTPROCESSING IMAGE QUALITY RADIATION PROTECTION CONCLUSION References Note
11 SECTION 4: Continuous Quality Improvement 9 Fundamentals of quality control INTRODUCTION DEFINITIONS ESSENTIAL STEPS OF QC QC RESPONSIBILITIES STEPS IN CONDUCTING A QC TEST THE TOLERANCE LIMIT OR ACCEPTANCE CRITERIA PARAMETERS FOR QC MONITORING QC TESTING FREQUENCY TOOLS FOR QC TESTING THE FORMAT OF A QC TEST PERFORMANCE CRITERIA/TOLERANCE LIMITS FOR COMMON QC TESTS REPEAT IMAGE ANALYSIS COMPUTED TOMOGRAPHY QC TESTS FOR TECHNOLOGISTS References
12 SECTION 5: PACS and Imaging Informatics 10 PACS and imaging informatics at a glance INTRODUCTION PACS CHARACTERISTIC FEATURES IMAGING INFORMATICS APPLICATIONS OF AI IN MEDICAL IMAGING References
13 SECTION 6: Radiation Protection 11 Basic concepts of radiobiology WHAT IS RADIOBIOLOGY? BASIC CONCEPTS OF RADIOBIOLOGY EFFECTS OF RADIATION EXPOSURE TO THE TOTAL BODY DETERMINISTIC EFFECTS STOCHASTIC EFFECTS RADIATION EXPOSURE DURING PREGNANCY References 12 Technical dose factors in radiography, fluoroscopy, and CT DOSE FACTORS IN DIGITAL RADIOGRAPHY DOSE FACTORS IN FLUOROSCOPY CT RADIATION DOSE FACTORS AND DOSE OPTIMIZATION CONSIDERATIONS References 13 Essential principles of radiation protection INTRODUCTION WHY RADIATION PROTECTION? OBJECTIVES OF RADIATION PROTECTION RADIATION PROTECTION PHILOSOPHY PERSONAL ACTIONS RADIATION QUANTITIES AND UNITS PERSONNEL DOSIMETRY OPTIMIZATION OF RADIATION PROTECTION CURRENT STATE OF GONADAL SHIELDING References
14 Index
