Description

Book Synopsis


Table of Contents

Acknowledgments xvii

List of Abbreviations xix

Introduction 1

Chapter 1 The Basic Physics of Ultrasound 5

Sound Waves 5

Describing Waves 9

Energy in a Sound Wave 11

Ultrasound Pulses 12

Energy Spectrum of a Pulse 13

Bandwidth 14

Speed of Sound (C) 16

Characteristic Acoustic Impedance, Z0 20

Energy in a Sound Wave 22

Decibels 23

Chapter 2 The Interaction of Ultrasound with Tissue 25

Reflection and Transmission at a Plane Interface 25

Poor Visualisation 29

Scattering 30

Attenuation 34

The Journey of the Ultrasound Pulse 37

User Control 37

References 38

Chapter 3 Beam Shapes 39

Simple Beam Shape Model 40

Huygen’s Wavelet Model and Diffraction 43

Focusing 44

Beam Forming with Transducer Arrays 47

Beam Steering 50

Electronic Focusing 52

Resolution 54

Clutter 58

Reference 58

Chapter 4 The Ultrasound Probe 59

The Transducer 59

Backing Layer 62

Matching Layer 63

Front Face Lens 65

Wide Band Transducers 65

Construction of an Array 66

CMUT Technology 66

1-D, 1.5-D, and 2-D Arrays 68

References 72

Chapter 5 Image Formation 73

Image Modes 74

Linear Image Formation 76

3D Imaging 80

Cine Loop 82

Endoprobes 82

Choosing A Probe 84

Focusing 84

Increasing Frame Rate 86

User Control 86

Ultrasound Harmonics 89

Coded Excitation 92

References 94

Chapter 6 The B-Mode Scanner 95

Transmission Side of a Scanner 95

User Controls 96

Receive Side of a Scanner (Rx) 97

Advantages of Digitising 101

Dynamic Range and Transfer Function (Greyscale Mapping) 102

Contrast Resolution 106

User Controls 106

Image Memory 106

Frame Freeze 106

Read and Write Zoom 107

Image Processing 108

User Control 108

Chapter 7 Image Quality and Artefacts 111

Acoustic Window 111

Frame Rate: Frames Per Second (fps) 112

Interlacing Scan Lines 113

Interpolation – Writing in ‘Extra Lines’ 114

Speckle 115

Frame Averaging or Persistence 116

User Control 117

Spatial Compound Imaging 117

Adaptive Filtering 118

Artefacts 122

Speed of Sound Artefacts 122

Attenuation Artefacts 127

Reflection Artefacts 130

Anisotropy 134

Beam Shape Artefacts 135

Temporal Artefacts 137

Final Example 139

References 140

Chapter 8 Principles of Doppler Ultrasound 141

The Doppler Effect 141

The Doppler Equation 143

Duplex Ultrasound 144

CW Doppler 145

CW Doppler Summary 152

Pulsed Wave Doppler (PW Doppler) and Range Gating 152

Intrinsic Spectral Broadening (ISB) 160

Question: What Doppler Angle Should We Use? 162

User Controls 163

Peak Velocity Envelope 165

Average Velocity 167

Doppler Artefacts 170

References 173

Chapter 9 Principles of Colour Doppler Ultrasound 175

Autocorrelation 177

Colour Scale 180

Frame Rate 181

User Controls 181

CDU and the Doppler Angle 183

Colour Aliasing 183

User Controls 185

Discrimination of Stationary Targets 187

User Controls 188

Power Doppler (PD) 188

CDU Artefacts 190

Colour Sensitivity 192

Presets 194

Colour M-Mode 194

Tissue Doppler Imaging (TDI) 194

Myocardial Strain Imaging 197

Speckle Tracking Echocardiography STE 199

References 202

Chapter 10 Making Measurements 203

Accuracy 204

Precision 204

How Accurate or Precise Do We Need To Be? 205

Reproducibility 205

Systematic and Random Errors 206

Ultrasound Measurements in Practice 206

Physical Constraints 207

Sonographer-Based Constraints 209

Principles for Making Reliable Measurements 209

Measurement of Circumference, Area, and Volume 213

Doppler Waveform Measurements 216

Waveform Indices 219

Colour Doppler Ultrasound 221

Measurement of Volume Flow Q 221

References 224

Chapter 11 Safety and Quality Assurance 225

Energy, Power, and Intensity 226

Measuring Intensity 227

Intensity 227

Factors Affecting Damage Potential 230

Thermal Effects 231

Thermal Index (TI) 232

Transducer Self-Heating 234

Nonthermal Effects 235

Radiation Force 235

Streaming 235

Cavitation 236

Mechanical Index (MI) 239

Alara 239

Contrast Agents 240

Quality Assurance and Routine Checks 241

Suggested Routine User Checks 241

The Use of Test Objects 244

Personal Risk Management 245

New Techniques in Ultrasound 246

References 247

Chapter 12 Advanced Topics 249

Contrast Agents (CA) 249

Behaviour of Bubbles in the Ultrasound Field 251

Contrast Agent Harmonics 252

Flashing 254

Advanced Micro-Bubble Techniques 255

B-Flow Blood Vessel Imaging 256

Doppler Measurement of Pressure Gradients 260

Advanced Image Processing 261

Artificial Intelligence 261

Segmentation 262

Examples (1–3) 262

Computer-Aided Diagnosis (CAD) 263

Diagnosis with Cad 268

Fusion Imaging 269

Needle Visualisation and Guidance 271

References 274

Chapter 13 Ultrafast Ultrasound 277

Synthetic Aperture Imaging (SA) 278

Plane-Wave Beamforming 279

Summary 283

Speed of Sound Correction 283

Ultrafast Doppler 286

Vector Flow Imaging (VFI) 291

References 298

Chapter 14 Elastography 301

Background Theory 302

Elastography 303

Methods of Applying The Distorting Force 303

Strain Elastography (SE) 303

User Controls 307

SE Artefacts 310

Acoustic Radiation Force Impulse Imaging (ARFI Imaging) 314

Strain Ratio 316

Shear Wave Elastography (SWE) 316

Point SWE (PSWE) 320

Supersonic Shear Imaging (SSI) 322

Shear Wave Compounding 323

SWE Artefacts 325

References 326

Appendix 1: Knobology 329

Appendix 2: Handling Equations and Decibels 335

Appendix 3: The Unfocused Transducer Beam Shape 345

Index 349

Ultrasound Technology for Clinical Practitioners

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A Hardback by Crispian Oates

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    View other formats and editions of Ultrasound Technology for Clinical Practitioners by Crispian Oates

    Publisher: John Wiley & Sons Inc
    Publication Date: 16/02/2023
    ISBN13: 9781119891550, 978-1119891550
    ISBN10: 1119891558
    Also in:
    Medical specialties, branches of medicine Biotechnology

    Description

    Book Synopsis


    Table of Contents

    Acknowledgments xvii

    List of Abbreviations xix

    Introduction 1

    Chapter 1 The Basic Physics of Ultrasound 5

    Sound Waves 5

    Describing Waves 9

    Energy in a Sound Wave 11

    Ultrasound Pulses 12

    Energy Spectrum of a Pulse 13

    Bandwidth 14

    Speed of Sound (C) 16

    Characteristic Acoustic Impedance, Z0 20

    Energy in a Sound Wave 22

    Decibels 23

    Chapter 2 The Interaction of Ultrasound with Tissue 25

    Reflection and Transmission at a Plane Interface 25

    Poor Visualisation 29

    Scattering 30

    Attenuation 34

    The Journey of the Ultrasound Pulse 37

    User Control 37

    References 38

    Chapter 3 Beam Shapes 39

    Simple Beam Shape Model 40

    Huygen’s Wavelet Model and Diffraction 43

    Focusing 44

    Beam Forming with Transducer Arrays 47

    Beam Steering 50

    Electronic Focusing 52

    Resolution 54

    Clutter 58

    Reference 58

    Chapter 4 The Ultrasound Probe 59

    The Transducer 59

    Backing Layer 62

    Matching Layer 63

    Front Face Lens 65

    Wide Band Transducers 65

    Construction of an Array 66

    CMUT Technology 66

    1-D, 1.5-D, and 2-D Arrays 68

    References 72

    Chapter 5 Image Formation 73

    Image Modes 74

    Linear Image Formation 76

    3D Imaging 80

    Cine Loop 82

    Endoprobes 82

    Choosing A Probe 84

    Focusing 84

    Increasing Frame Rate 86

    User Control 86

    Ultrasound Harmonics 89

    Coded Excitation 92

    References 94

    Chapter 6 The B-Mode Scanner 95

    Transmission Side of a Scanner 95

    User Controls 96

    Receive Side of a Scanner (Rx) 97

    Advantages of Digitising 101

    Dynamic Range and Transfer Function (Greyscale Mapping) 102

    Contrast Resolution 106

    User Controls 106

    Image Memory 106

    Frame Freeze 106

    Read and Write Zoom 107

    Image Processing 108

    User Control 108

    Chapter 7 Image Quality and Artefacts 111

    Acoustic Window 111

    Frame Rate: Frames Per Second (fps) 112

    Interlacing Scan Lines 113

    Interpolation – Writing in ‘Extra Lines’ 114

    Speckle 115

    Frame Averaging or Persistence 116

    User Control 117

    Spatial Compound Imaging 117

    Adaptive Filtering 118

    Artefacts 122

    Speed of Sound Artefacts 122

    Attenuation Artefacts 127

    Reflection Artefacts 130

    Anisotropy 134

    Beam Shape Artefacts 135

    Temporal Artefacts 137

    Final Example 139

    References 140

    Chapter 8 Principles of Doppler Ultrasound 141

    The Doppler Effect 141

    The Doppler Equation 143

    Duplex Ultrasound 144

    CW Doppler 145

    CW Doppler Summary 152

    Pulsed Wave Doppler (PW Doppler) and Range Gating 152

    Intrinsic Spectral Broadening (ISB) 160

    Question: What Doppler Angle Should We Use? 162

    User Controls 163

    Peak Velocity Envelope 165

    Average Velocity 167

    Doppler Artefacts 170

    References 173

    Chapter 9 Principles of Colour Doppler Ultrasound 175

    Autocorrelation 177

    Colour Scale 180

    Frame Rate 181

    User Controls 181

    CDU and the Doppler Angle 183

    Colour Aliasing 183

    User Controls 185

    Discrimination of Stationary Targets 187

    User Controls 188

    Power Doppler (PD) 188

    CDU Artefacts 190

    Colour Sensitivity 192

    Presets 194

    Colour M-Mode 194

    Tissue Doppler Imaging (TDI) 194

    Myocardial Strain Imaging 197

    Speckle Tracking Echocardiography STE 199

    References 202

    Chapter 10 Making Measurements 203

    Accuracy 204

    Precision 204

    How Accurate or Precise Do We Need To Be? 205

    Reproducibility 205

    Systematic and Random Errors 206

    Ultrasound Measurements in Practice 206

    Physical Constraints 207

    Sonographer-Based Constraints 209

    Principles for Making Reliable Measurements 209

    Measurement of Circumference, Area, and Volume 213

    Doppler Waveform Measurements 216

    Waveform Indices 219

    Colour Doppler Ultrasound 221

    Measurement of Volume Flow Q 221

    References 224

    Chapter 11 Safety and Quality Assurance 225

    Energy, Power, and Intensity 226

    Measuring Intensity 227

    Intensity 227

    Factors Affecting Damage Potential 230

    Thermal Effects 231

    Thermal Index (TI) 232

    Transducer Self-Heating 234

    Nonthermal Effects 235

    Radiation Force 235

    Streaming 235

    Cavitation 236

    Mechanical Index (MI) 239

    Alara 239

    Contrast Agents 240

    Quality Assurance and Routine Checks 241

    Suggested Routine User Checks 241

    The Use of Test Objects 244

    Personal Risk Management 245

    New Techniques in Ultrasound 246

    References 247

    Chapter 12 Advanced Topics 249

    Contrast Agents (CA) 249

    Behaviour of Bubbles in the Ultrasound Field 251

    Contrast Agent Harmonics 252

    Flashing 254

    Advanced Micro-Bubble Techniques 255

    B-Flow Blood Vessel Imaging 256

    Doppler Measurement of Pressure Gradients 260

    Advanced Image Processing 261

    Artificial Intelligence 261

    Segmentation 262

    Examples (1–3) 262

    Computer-Aided Diagnosis (CAD) 263

    Diagnosis with Cad 268

    Fusion Imaging 269

    Needle Visualisation and Guidance 271

    References 274

    Chapter 13 Ultrafast Ultrasound 277

    Synthetic Aperture Imaging (SA) 278

    Plane-Wave Beamforming 279

    Summary 283

    Speed of Sound Correction 283

    Ultrafast Doppler 286

    Vector Flow Imaging (VFI) 291

    References 298

    Chapter 14 Elastography 301

    Background Theory 302

    Elastography 303

    Methods of Applying The Distorting Force 303

    Strain Elastography (SE) 303

    User Controls 307

    SE Artefacts 310

    Acoustic Radiation Force Impulse Imaging (ARFI Imaging) 314

    Strain Ratio 316

    Shear Wave Elastography (SWE) 316

    Point SWE (PSWE) 320

    Supersonic Shear Imaging (SSI) 322

    Shear Wave Compounding 323

    SWE Artefacts 325

    References 326

    Appendix 1: Knobology 329

    Appendix 2: Handling Equations and Decibels 335

    Appendix 3: The Unfocused Transducer Beam Shape 345

    Index 349

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