Chapter I Overview
Section I. History of Development
I. The Introduction of Conventional X-ray Equipment, Laying the Foundation for the Establishment of Radiology
II. The Birth of CT Scanning Equipment, a New Milestone in Medical Imaging Equipment
III. The Establishment of the Modern System of Medical Imaging Equipment
IV. /p>
Section 2: Classification of Medical Imaging Equipment
I. Medical Imaging Diagnostic Equipment
II. Medical Imaging Therapeutic Equipment
Chapter 2: X-Ray Generating Devices
Section 1: X-Ray Tubes
I. Fixed-Anode X-Ray Tubes
II. Rotating-Anode X-Ray Tubes
III.
IV. Characteristics and Parameters
V. Tube Sleeves
Section II High Voltage Generators
I. High Voltage Transformers
II. High Voltage Components
Section III Console
I. Basic Requirements for Circuits
II. Basic Circuits
III. Introduction to Unit Circuits
Chapter III Diagnostic X-ray machine
Section I Industrial frequency X-ray machine
I. Conventional X-ray machine
II. Program-controlled X-ray machine
Section II High-frequency X-ray machine
I. Main technical parameters
II. Main features
III. Composition
IV. Inverter power supply
Section III medical X-ray television system
I. Image intensifier
II. TV basics
III. Camera
IV. Automatic brightness control device
V. Monitors
VI. High-definition television
Section IV. p>I. Gastrointestinal X-ray machine
Second, photographic X-ray machine
Third, other specialized X-ray machine
Fourth, imaging aids
Chapter IV Digital X-ray equipment
Section I Computed Radiography Device
I. Basic Composition and Principle of Work
Two, the image board
Three, reading Device
Four, computer image processing
Five, image storage device
Six, evaluation criteria
Seven, the use of precautions
Section 2 digital radiography device
One, the composition of the
Second, the principle of operation
Three, precautions
Division IV, CR and DR Comparison of CR and DR
Section III Digital Subtraction Angiography Device
I. Basic Structure
II. Factors Affecting Image Quality
III. Requirements for X-Ray Machines
IV. Specialized Stents
V. Catheterization Beds
VI. High-Pressure Injector
VII. Special functions of the DSA system
IX. Image quality testing
X. Precautions
Chapter V X-ray computed tomography equipment
Section I. Overview
I. A brief history of development
II. Development trends
Section II. Imaging systems
I. Data acquisition devices
II. Computer and Image Reconstruction System
Section III Spiral CT
I. Characteristics
II. Spiral Scanning Device
III. Multi-slice Spiral CT
Section IV. Quality Assurance of Equipment for X-Ray CT
I. Parameters of Image Quality
II. Factors Influencing the Quality of the Image
III. p>III. Artifacts
Chapter 6 Magnetic **** vibration imaging equipment
Section I. Overview
I. Brief history of development
II. Characteristics
III. Composition and working principle
Section II. Primary magnet system
I. Types and performance indexes
II. Uniform field technology
Section III Gradient Magnetic Field System
I. Generation of Gradient Magnetic Field
II. Gradient Magnetic Field Coil
III. Technical Parameters
Section IV Radio Frequency System
I. Transmitter Coil and Transmitter Channel
II. Receiver Coil and Receiver Channel
Section V Computer System
I. Gradient Control of magnetic field
II. Control of radio frequency pulse
III. Image reconstruction
IV. Image display
Section VI. Magnetic **** vibration imaging equipment quality assurance
I. MRI equipment quality assurance main parameters
II. Magnetic **** vibration imaging equipment detection of body model
III. Artifacts
Chapter VII Ultrasound Imaging Equipment
Section I Overview
A brief history of the development of
II, classification and basic imaging principles
III, China's application of ultrasound diagnostic technology
IV, ultrasound imaging technology
Section II Ultrasound Probes and Displays
I. Medical ultrasound probes
Second, the display
Section III B ultrasound imaging equipment
I. Classification
II. Mechanical fan sweep and mechanical radial sweep
Third, the electronic line array
Fourth, the electronic fan sweep
Fifth, real-time imaging
Fourth section of ultrasound Doppler technology
I. Working Principle
II. Continuous Doppler ultrasound technology
III. Pulsed Doppler technology
IV. Color Doppler ultrasound imaging equipment
Chapter VIII: Nuclear Medicine Imaging Equipment
Section I: Overview
I. Brief history of the development of
II. Classification and characteristics of the application of
Section II. Basic components of nuclear medicine imaging equipment
I. Basic structure and working principle
II. Collimator
III. Scintillator crystals
Section 3: Single-photon emission computed tomography scanner
I. Basic structure and working principle
II. Detector
III.
V. Computer
VI. Peripherals
Section IV Positron Emission Computed Tomography (PET) Scanner
I. Basic Structure and Working Principle
II. Detectors
III. Rack
IV. Computer and Networking System
V. >
Chapter 9 Image Storage and Transmission Systems
Section I. Overview
I. Brief History and Trends of Development
II. Main Functions
III. Classification
Section II. Digital Image and Communication Standards
I. Scope of Application and Fields
II, File format
IV. Network structure
V. Interface and communication
Section III Basic structure of the image storage and transmission system
I. Hardware structure
II. Software structure
Section IV Application
I. Introduction to the hospital information system
II. Planning and construction of the hospital-wide PACS Construction
III. Complete Integration of HIS with RIS and PACS
IV. Teleradiology System
References
Index of Chinese and English Terms
Index of English and Chinese Terms