Verfügbarkeit: Diagnostic ultrasound imaging

Diagnostic ultrasound imaging: inside out

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Bibliographische Detailangaben
1. Verfasser:	Szabo, Thomas L. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier Academic Press 2004
Schriftenreihe:	Academic Press series in biomedical engineering
Schlagworte:	Echografie Diagnosis, Ultrasonic Ultrasonic imaging Bilderzeugung Ultraschalldiagnostik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXII, 549 S. Ill., graph. Darst.
ISBN:	0126801452

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Datensatz im Suchindex

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adam_text	CONTENTS I INTRODUCTION 1 1.1 Introduction 1 1.1.1 Early Beginnings 2 1.1.2 Sonar 3 1.2 Echo Ranging of the Body 4 1.3 Ultrasound Portrait Photographers 6 1.4 Ultrasound Cinematographers 12 1.5 Modern Ultrasound Imaging Developments 16 1.6 Enabling Technologies for Ultrasound Imaging 19 1.7 Ultrasound Imaging Safety 20 1.8 Ultrasound and Other Diagnostic Imaging Modalities 22 1.8.1 Imaging Modalities Compared 22 1.8.2 Ultrasound 22 1.8.3 X rays 24 1.8.4 Computed Tomography Imaging 24 1.8.5 Magnetic Resonance Imaging 25 1.9 Conclusion 26 Bibliography 26 References 27 Xiv CONTENTS 2, OVERVIEW 29 2.1 Introduction 29 2.2 Fourier Transform 30 2.2.1 Introduction to the Fourier Transform 30 2.2.2 Fourier Transform Relationships 31 2.3 Building Blocks 34 2.3.1 Time and Frequency Building Blocks 34 2.3.2 Space Wave Number Building Block 36 2.4 Central Diagram 43 References 45 D ACOUSTIC WAVE PROPAGATION 47 3.1 Introduction to Waves 47 3.2 Plane Waves in Liquids and Solids 48 3.2.1 Introduction 48 3.2.2 Wave Equations for Fluids 49 3.2.3 One Dimensional Wave Hitting a Boundary 52 3.2.4 ABCD Matrices 53 3.2.5 Oblique Waves at a Liquid Liquid Boundary 57 3.3 Elastic Waves in Solids 59 3.3.1 Types of Waves 59 3.3.2 Equivalent Networks for Waves 64 3.3.3 Waves at a Fluid Solid Boundary 66 3.4 Conclusion 70 Bibliography 70 References 70 HT ATTENUATION 71 4.1 Losses in Tissues 72 4.1.1 Losses in Exponential Terms and in Decibels 72 4.1.2 Tissue Data 73 4.2 Losses in Both Frequency and Time Domains 75 4.2.1 The Material Transfer Function 75 4.2.2 The Material Impulse Response Function 76 4.3 Tissue Models 77 4.3.1 Introduction 77 4.3.2 Thermoviscous Model 78 4.3.3 Multiple Relaxation Model 79 4.3.4 The Time Causal Model 79 CONTENTS xv 4.4 Pulses in Lossy Media 83 4.4.1 Scaling of the Material Impulse Response Function 83 4.4.2 Pulse Propagation: Interactive Effects in Time and Frequency 86 4.4.3 Pulse Echo Propagation 88 4.5 Penetration and Time Gain Compensation 90 4.6 Hooke s Law for Viscoelastic Media 90 4.7 Wave Equations for Tissues 92 4.7.1 Voigt Model Wave Equation 92 4.7.2 Multiple Relaxation Model Wave Equation 93 4.7.3 Time Causal Model Wave Equations 93 References 95 J TRANSDUCERS 97 5.1 Introduction to Transducers 98 5.1.1 Transducer Basics 98 5.1.2 Transducer Electrical Impedance 99 5.1.3 Summary 101 5.2 Resonant Modes of Transducers 102 5.2.1 Resonant Crystal Geometries 102 5.2.2 Determination of Electroacoustic Coupling Constants 104 5.2.3 Array Construction 105 5.3 Equivalent Circuit Transducer Model 106 5.3.1 KLM Equivalent Circuit Model 106 5.3.2 Organization of Overall Transducer Model 108 5.3.3 Transducer at Resonance 109 5.4 Transducer Design Considerations 111 5.4.1 Introduction 111 5.4.2 Insertion Loss and Transducer Loss 11 ] 5.4.3 Electrical Loss 113 5.4.4 Acoustical Loss 114 5.4.5 Matching Layers 116 5.4.6 Design Examples 117 5.5 Transducer Pulses 120 5.6 Equations for Piezoelectric Media 122 5.7 Piezoelectric Materials 123 5.7.1 Introduction 123 5.7.2 Normal Polycrystalline Piezoelectric Ceramics 124 5.7.3 Relaxor Piezoelectric Ceramics 124 5.7.4 Single Crystal Ferroelectrics 126 5.7.5 Piezoelectric Organic Polymers 126 5.7.6 Domain Engineered Ferroelectric Single Crystals 126 5.7.7 Composite Materials 126 XVi CONTENTS 5.8 Comparison of Piezoelectric Materials 127 5.9 Transducer Advanced Topics 128 Bibligraphy 131 References 132 O BEAMFORMING 137 6.1 What is Diffraction? 137 6.2 Fresnel Approximation of Spatial Diffraction Integral 140 6.3 Rectangular Aperture 142 6.4 Apodization 148 6.5 Circular Apertures 149 6.5.1 Near and Far Fields for Circular Apertures 149 6.5.2 Universal Relations for Circular Apertures 153 6.6 Focusing 154 6.6.1 Derivation of Focusing Relations 154 6.6.2 Zones for Focusing Transducers 158 6.7 Angular Spectrum of Waves 163 6.8 Diffraction Loss 164 6.9 Limited Diffraction Beams 168 Bibliography 168 References 168 / ARRAY BEAMFORMING 171 7.1 Why Arrays? 172 7.2 Diffraction in the Time Domain 172 7.3 Circular Radiators in the Time Domain 173 7.4 Arrays 177 7.4.1 The Array Element 178 7.4.2 Pulsed Excitation of an Element 181 7.4.3 Array Sampling and Grating Lobes 182 7.4.4 Element Factors 185 7.4.5 Beam Steering 186 7.4.6 Focusing and Steering 188 7.5 Pulse Echo Beamforming 190 7.5.1 Introduction 190 7.5.2 Beam Shaping 192 7.5.3 Pulse Echo Focusing 194 7.6 Two Dimensional Arrays 196 7.7 Baffled 199 7.8 General Approaches 203 7.9 Nonideal Array Performance 203 CONTENTS xvjj 7.9.1 Quantization and Defective Elements 203 7.9.2 Sparse and Thinned Arrays 204 7.9.3 1.5 Dimensional Arrays 206 7.9.4 Diffraction in Absorbing Media 207 7.9.5 Body Effects 208 Bibliography 208 References 209 O WAVE SCATTERING AND IMAGING 21 3 8.1 Introduction 213 8.2 Scattering of Objects 216 8.2.1 Specular Scattering 216 8.2.2 Diffusive Scattering 217 8.2.3 Diffractive Scattering 219 8.2.4 Scattering Summary 221 8.3 Role of Transducer Diffraction and Focusing 222 8.3.1 Time Domain Born Approximation Including Diffraction 223 8.4 Role of Imaging 225 8.4.1 Imaging Process 225 8.4.2 A Different Attitude 227 8.4.3 Speckle 230 8.4.4 Contrast 234 8.4.5 van Cittert Zernike Theorem 236 8.4.6 Speckle Reduction 240 Bibliography 240 References 241 J7 SCATTERING FROM TISSUE AND TISSUE CHARACTERIZATION 243 9.1 Introduction 244 9.2 Scattering from Tissues 244 9.3 Properties of and Propagation in Heterogeneous Tissue 248 9.3.1 Properties of Heterogeneous Tissue 248 9.3.2 Propagation in Heterogeneous Tissue 250 9.4 Array Processing of Scattered Pulse Echo Signals 254 9.5 Tissue Characterization Methods 257 9.5.1 Introduction 257 9.5.2 Fundamentals 258 9.5.3 Backscattering Definitions 259 9.5.4 The Classic Formulation 260 9.5.5 Extensions of the Original Backscatter Methodology 261 9.5.6 Integrated Backscatter 262 xviii contents 9.5.7 Spectral Features 263 9.6 Applications of Tissue Characterization 264 9.6.1 Radiology and Ophthalmic Applications 264 9.6.2 Cardiac Applications 266 9.6.3 High Frequency Applications 269 9.6.4 Texture Analysis and Image Analysis 277 9.7 Elastography 277 9.8 Aberration Correction 283 9.9 Wave Equations for Tissue 286 Bibliography 288 References 288 I U IMAGING SYSTEMS AND APPLICATIONS 297 10.1 Introduction 298 10.2 Trends in Imaging Systems 299 10.3 Major Controls 300 10.4 Block Diagram 301 10.5 Major Modes 303 10.6 Clinical Applications 306 10.7 Transducers and Image Formats 307 10.7.1 Image Formats and Transducer Types 307 10.7.2 Transducer Implementations 310 10.7.3 Multidimensional Arrays 313 10.8 Front End 313 10.8.1 Transmitters 313 10.8.2 Receivers 314 10.9 Scanner 316 10.9.1 Beamformers 316 10.9.2 Signal Processors 316 10.10 Back End 322 10.10.1 Scan Conversion and Display 322 10.10.2 Computation and Software 323 10.11 Advanced Signal Processing 325 10.11.1 High End Imaging Systems 325 10.11.2 Attenuation and Diffraction Amplitude Compensation 325 10.11.3 Frequency Compounding 326 10.11.4 Spatial Compounding 327 10.11.5 Real Time Border Detection 329 10.11.6 Three and Four Dimensional Imaging 330 10.12 Alternate Imaging System Architectures 332 Bibliography 334 References 334 CONTENTS xjx I I DOPPLER MODES 337 11.1 Introduction 338 11.2 The Doppler Effect 338 11.3 Scattering from Flowing Blood in Vessels 342 11.4 Continuous Wave Doppler 346 11.5 Pulsed Wave Doppler 353 11.5.1 Introduction 353 11.5.2 Range Gated Pulsed Doppler Processing 355 11.5.3 Quadrature Sampling 359 11.5.4 Final Filtering and Display 362 11.5.5 Pulsed Doppler Examples 363 11.6 Comparison of Pulsed and Continuous Wave Doppler 365 11.7 Ultrasound Color Flow Imaging 366 11.7.1 Introduction 366 11.7.2 Phase Based Mean Frequency Estimators 366 11.7.3 Time Domain Based Estimators 369 11.7 .4 Implementations of Color Flow Imaging 370 11.7.5 Power Doppler and Other Variants of Color Flow Imaging 371 11.7.6 Future and Current Developments 373 11.8 Non Doppler Visualization of Blood Flow 374 11.9 Conclusion 376 Bibliography 377 References 377 I Z. NONLINEAR ACOUSTICS AND IMAGING 381 12.1 Introduction 382 12.2 What is Nonlinear Propagation? 386 12.3 Propagation in a Nonlinear Medium with Losses 390 12.4 Propagation of Beams in Nonlinear Media 392 12.5 Harmonic Imaging 400 12.5.1 Introduction 400 12.5.2 Resolution 402 12.5.3 Focusing 404 12.5.4 Natural Apodization 405 12.5.5 Body Wall Effects 406 12.5.6 Absorption Effects 410 12.5.7 Harmonic Pulse Echo 411 12.6 Harmonic Signal Processing 412 12.7 Other Nonlinear Effects 415 12.8 Nonlinear Wave Equations and Simulation Models 418 12.9 Summary 421 XX CONTENTS Bibliography 421 References 422 I 3 ULTRASONIC EXPOSIMETRYAND ACOUSTIC MEASUREMENTS 429 13.1 Introduction to Measurements 430 13.2 Materials Characterization 430 13.2.1 Transducer Materials 430 13.2.2 Tissue Measurements 431 13.2.3 Measurement Considerations 432 13.3 Transducers 432 13.3.1 Impedance 432 13.3.2 Pulse Echo Testing 433 13.3.3 Beamplots 435 13.4 Acoustic Output Measurements 438 13.4.1 Introduction 438 13.4.2 Hydrophone Characteristics 439 13.4.3 Hydrophone Measurements of Absolute Pressure and Derived Parameters 443 13.4.4 Force Balance Measurements of Absolute Power 447 13.4.5 Measurements of Temperature Rise 447 13.5 Performance Measurements 449 13.6 Thought Experiments 450 Bibliography 450 References 451 14 ULTRASOUND CONTRAST AGENTS 455 14.1 Introduction 455 14.2 Microbubble as Linear Resonator 456 14.3 Microbubble as Nonlinear Resonator 458 14.4 Cavitation and Bubble Destruction 459 14.4.1 Rectified Diffusion 459 14.4.2 Cavitation 461 14.4.3 Mechanical Index 462 14.5 Ultrasound Contrast Agents 463 14.5.1 Basic Physical Characteristics of Ultrasound Contrast Agents 463 14.5.2 Acoustic Excitation of Ultrasound Contrast Agents 465 14.5.3 Mechanisms of Destruction of Ultrasound Contrast Agents 467 14.5.4 Secondary Physical Characteristics of Ultrasound Contrast Agents 471 14.6 Imaging with Ultrasound Contrast Agents 473 14.7 Therapeutic Ultrasound Contrast Agents: Smart Bubbles 479 CONTENTS xxj 14.8 Equations of Motion for Contrast Agents 482 14.9 Conclusion 483 Bibliography 484 References 485 I O ULTRASOUND INDUCED BIOEFFECTS 489 15.1 Introduction 490 15.2 Ultrasound Induced Bioeffects: Observation to Regulation 491 15.3 Thermal Effects 493 15.3.1 Introduction 493 15.3.2 Heat Conduction Effects 494 15.3.3 Absorption Effects 495 15.3.4 Perfusion Effects 496 15.3.5 Combined Contributions to Temperature Elevation 497 15.3.6 Biologically Sensitive Sites 497 15.4 Mechanical Effects 498 15.5 The Output Display Standard 498 15.5.1 Origins of the Output Display Standard 498 15.5.2 Thermal Indices 499 15.5.3 Mechanical Index 500 15.5.4 The ODS Revisited 501 15.6 Comparison of Medical Ultrasound Modalities 502 15.6.1 Introduction 502 15.6.2 Ultrasound Therapy 502 15.6.3 Hyperthermia 503 15.6.4 High Intensity Focused Ultrasound 504 15.6.5 Lithotripsy 505 15.6.6 Diagnostic Ultrasound Imaging 505 15.7 Primary and Secondary Ultrasound Induced Bioeffects 507 15.8 Equations for Predicting Temperature Rise 508 15.9 Conclusions 510 Bibliography 512 References 512 APPENDIX A 517 A.I Introduction 517 A.2 The Fourier Transform 518 A.2.1 Definitions 518 A.2.2 Fourier Transform Pairs 519 A.2.3 Fundamental Fourier Transform Operations 521 A.2.4 The Sampled Waveform 523 XXii CONTENTS A.2.5 The Digital Fourier Transform 526 A.2.6 Calculating a Fourier Transform with an FFT 527 A.2.7 Calculating an Inverse Fourier Transform and a Hilbert Transform with an FFT 532 A.2.8 Calculating a Two Dimensional Fourier Transform with FFTs 533 Bibliography 534 References 534 APPENDIX B 535 References 535 APPENDIX C 537 C.I Development of One Dimensional KLM Model Based on ABCD Matrices 537 References 540 APPENDIX D 541 INDEX 543
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spelling	Szabo, Thomas L. Verfasser aut Diagnostic ultrasound imaging inside out Thomas L. Szabo Amsterdam [u.a.] Elsevier Academic Press 2004 XXII, 549 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Academic Press series in biomedical engineering Includes bibliographical references and index Echografie gtt Diagnosis, Ultrasonic Ultrasonic imaging Bilderzeugung (DE-588)4197032-9 gnd rswk-swf Ultraschalldiagnostik (DE-588)4061557-1 gnd rswk-swf Ultraschalldiagnostik (DE-588)4061557-1 s Bilderzeugung (DE-588)4197032-9 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013195411&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Szabo, Thomas L. Diagnostic ultrasound imaging inside out Echografie gtt Diagnosis, Ultrasonic Ultrasonic imaging Bilderzeugung (DE-588)4197032-9 gnd Ultraschalldiagnostik (DE-588)4061557-1 gnd
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title	Diagnostic ultrasound imaging inside out
title_auth	Diagnostic ultrasound imaging inside out
title_exact_search	Diagnostic ultrasound imaging inside out
title_full	Diagnostic ultrasound imaging inside out Thomas L. Szabo
title_fullStr	Diagnostic ultrasound imaging inside out Thomas L. Szabo
title_full_unstemmed	Diagnostic ultrasound imaging inside out Thomas L. Szabo
title_short	Diagnostic ultrasound imaging
title_sort	diagnostic ultrasound imaging inside out
title_sub	inside out
topic	Echografie gtt Diagnosis, Ultrasonic Ultrasonic imaging Bilderzeugung (DE-588)4197032-9 gnd Ultraschalldiagnostik (DE-588)4061557-1 gnd
topic_facet	Echografie Diagnosis, Ultrasonic Ultrasonic imaging Bilderzeugung Ultraschalldiagnostik
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