Diagnostic Ultrasound Imaging and Blood Flow Measurements 2nd Edition by Kirk Shung ISBN 9781466582651 1466582650
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ISBN 10: 1466582650
ISBN 13: 9781466582651
Author: Kirk Shung
Diagnostic Ultrasound Imaging and Blood Flow Measurements 2nd Edition Table of contents:
Chapter 1 Introduction
1.1 History
1.2 Role of ultrasound in medical imaging
1.3 Purpose of the book
References and Further Reading Materials
Chapter 2 Fundamentals of acoustic propagation
2.1 Stress and strain relationship
2.2 Acoustic wave equation
2.2.1 Compressional wave
2.2.2 Shear wave
2.3 Characteristic impedance
2.4 Intensity
2.5 Acoustic radiation force
2.6 Reflection and refraction
2.7 Attenuation, absorption, and scattering
2.7.1 Attenuation
2.7.2 Absorption
2.7.3 Scattering
2.8 Nonlinearity parameter B/A
2.9 Doppler effect
References and Further Reading Materials
Chapter 3 Ultrasonic transducers and arrays
3.1 Piezoelectric effect
3.2 Piezoelectric constitutive equation
3.3 Ultrasonic transducers
3.3.1 Mechanical matching
3.3.2 Electrical matching
3.4 Characterization of piezoelectric materials
3.4.1 Dielectric constant
3.4.2 Dielectric loss tangent
3.4.3 Electromechanical coupling coefficient
3.4.4 Mechanical quality factor Qm
3.4.5 Piezoelectric strain or transmission constant d33
3.5 Transducer beam characteristics
3.5.1 Lateral beam profiles
3.5.2 Pulsed ultrasonic field
3.5.3 Visualization and mapping of the ultrasonic field
3.5.4 Axial and lateral resolutions
3.5.5 Focusing
3.5.6 Protection circuits for transducers
3.6 Arrays
3.6 Characterization of transducer/ array performance
3.6.1 Insertion loss
3.6.2 Cross talk
References and Further Reading Materials
Chapter 4 Gray-scale ultrasonic imaging
4.1 A- (amplitude) mode and B – (brightness) mode imaging
4.1.1 Resolution of B-mode ultrasonic imaging systems
4.1.2 Beamforming
4.1.3 Speckle
4.1.4 Image quality
4.1.4.1 Point spread function
4.1.4.2 Contrast
4.1.4.3 Noises
4.1.5 Phase aberration compensation
4.1.6 Clinical applications
4.2 M-mode and C-mode
4.3 Ultrasound computed tomography (CT)
4.4 Coded excitation imaging
4.5 Compound imaging
4.6 Synthetic aperture imaging
4.7 New developments
References and Further Reading Materials
Chapter 5 Doppler flow measurements
5.1 Nondirectional CW flowmeters
5.2 Directional Doppler flowmeters
5.2.1 Single-sideband filtering
5.2.2 Heterodyne demodulation
5.2.3 Quadrature phase demodulation
5.3 Pulsed Doppler flowmeters
5.4 Clinical applications and Doppler indices
5.5 Potential problems in Doppler measurements
5.6 Tissue doppler and multigate Doppler
References and Further Reading Materials
Chapter 6 Flow and displacement imaging
6.1 Color Doppler flow imaging
6.2 Color Doppler power imaging
6.3 Time domain flow estimation
6.4 Elasticity imaging
6.4.1 Elastography
6.4.2 Sonoelasticity imaging
6.5 Acoustic radiation force imaging (ARFI)
6.6 Vibro-acoustography
6.7 Supersonic shear wave imaging (SSWI)
6.8 B-Flow imaging
References and Further Reading Materials
Chapter 7 Contrast media and harmonic imaging
7.1 Contrast agents
7.1.1 Gaseous agents
7.1.2 Encapsulated gaseous agents
7.1.3 Dilute distribution of bubbles of varying size
7.2 Nonlinear interactions between ultrasound and bubbles
7.3 Modified Rayleigh-Plesset equation for encapsulated gas bubbles
7.4 Solutions to Rayleigh-Plesset equation
7.5 Harmonic imaging
7.6 Native tissue harmonic imaging
7.7 Subharmonic imaging
7.8 Clinical applications of contrast agents and harmonic imaging
References and Further Reading Materials
Chapter 8 Intracavity and high-frequency (HF) imaging
8.1 Intracavity imaging
8.1.1 Transesophageal cardiac imaging
8.1.2 Transrectal and transvaginal imaging
8.1.3 Endoluminal imaging
8.2 Intravascular imaging
8.3 High-frequency imaging
8.4 Acoustic microscopes
References and Further Reading Materials
Chapter 9 Multidimensional imaging and recent developments
9.1 Parallel processing
9.2 Multidimensional arrays
9.2.1 2Darrays
9.2.2 Sparse arrays
9.3 3D imaging
9.4 Recent developments
9.4.1 Photoacoustic imaging
9.4.2 Multimodality imaging
9.4.3 Portable scanners
References and Further Reading Materials
Chapter 10 Biological effects of ultrasound
10.1 Acoustic phenomena at high-intensity levels
10.1.1 Wave distortion
10.1.2 Heating
10.1.3 Cavitation
10.1.4 Radiation force and streaming
10.2 Ultrasound bioeffects
10.2.1 Thermal effects
10.2.2 Thermal index
10.2.3 Mechanical effects and mechanical index
10.2.4 Bioeffects associated with gaseous contrast agents
References and Further Reading Materials
Chapter 11 Methods for measuring speed, attenuation, absorption, and scattering
11.1 Velocity
11.1.1 In vitro methods
11.1.1.1 Interferometric method
11.1.1.2 Pulse-echo method
11.1.1.3 Velocity difference method
11.1.2 In vivo methods
11.2 Attenuation
11.2.1 In vitro methods
11.2.1.1 Transmission methods
11.2.1.2 Transient thermoelectric method
11.2.2 In vivo methods
11.2.2.1 Loss of amplitude method
11.2.2.2 Frequency shift method
11.3 Scattering
11.3.1 In vitro methods
11.3.2 In vivo methods
References and Further Reading Materials
Index
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Tags: Kirk Shung, Diagnostic Ultrasound, Blood Flow Measurements