Ultrasound Elastography for Biomedical Applications and Medicine (Hardcover)

Chapter I: Editors’ Introduction
Ivan Nenadic, Matthew W. Urban, James F. Greenleaf, Jean-Luc Gennisson, Miguel Bernal, Mickaël Tanter

Chapter 2.Theory of Ultrasound Physics and Imaging
Roberto Lavarello and Michael L Oelze

Chapter 3: Elastography and the Continuum of Tissue Response
Kevin J. Parker

Chapter 4: Ultrasonic Methods for Assessment of Tissue Motion in Elastography
Jingfeng Jiang, Bo Peng

Chapter 5 : Continuum Mechanics Tensor Calculus and Solutions to Wave Equations
Luiz Vasconcelos, Jean-Luc Gennisson, Ivan Z. Nenadic

Chapter 6 :Transverse wave propagation in anisotropic media
Jean-Luc Gennisson

Chapter 7 :Transverse Wave Propagation in Bounded Media
Javier Brum 

Chapter 8 :Rheological model-based methods for estimating tissue viscoelasticity
Jean-Luc Gennisson 

Chapter 9 :Wave propagation in viscoelastic materials
Yue Wang, Michael F. Insana 

Chapter 10 :Validation of quantitative linear and nonlinear compression elastography
Jean Francois Dord, Sevan Goenezen, Assad A Oberai, Paul E Barbone, Jingfeng Jiang, Timothy J Hall, Theo Pavan 

Chapter 11 : Cardiac strain and strain rate imaging
Brecht Heyde, Oana Mirea, Jan D’hooge 

Chapter 12 :Vascular and Intravascular Elastography
Marvin M. Doyley 

Chapter 13 :Viscoelastic creep imaging
Carolina Amador Carrascal 

Chapter 14: Intrinsic Cardiovascular Wave and Strain Imaging
Elisa Konofagou 

Chapter 15: Dynamic Elasticity Imaging
Kevin J. Parker 

Chapter 16: Harmonic Shear Wave Elastography
Heng Zhao 

Chapter 17 :Vibro-acoustography and its Medical Applications
Azra Alizad and Mostafa Fatemi 

Chapter 18 Harmonic Motion Imaging
Elisa Konofagou 

Chapter 19:Shearwave Dispersion Ultrasound Vibrometry
Pengfei Song and Shigao Chen 

Chapter 20 :Transient Elastography: from research to non-invasive assessment of liver fibrosis using Fibroscan
Laurent Sandrin, Magali Sasso, Stéphane Audière, Cécile Bastard, Céline Fournier, Jennifer Oudry, Véronique Miette, Stefan Catheline

Chapter 21:From time reversal to natural shear wave imaging
Stefan Catheline 

Chapter 22 Acoustic Radiation Force Impulse (ARFI) Ultrasound
Tomasz J. Czernuszewicz and Caterina M. Gallippi

Chapter 23:Supersonic Shear Imaging
Jean-Luc Gennisson and Mickaël Tanter

Chapter 24 Title: Single Tracking Location Shear Wave Elastography
Stephen A. McAleavey

Chapter 25 Comb-push Ultrasound Shear Elastography
Pengfei Song and Shigao Chen

Chapter 26 Anisotropic Shear Wave Elastography
Sara Aristizabal

Chapter 27 Application of Guided Waves for Quantifying Elasticity and Viscoelasticity of Boundary Sensitive Organs
Sara Aristizabal, Matthew W. Urban, Luiz Vasconcelos, Benjamin Wood, Miguel Bernal, Javier Brum, Ivan Z. Nenadic

Chapter 28 Model-Free Techniques for Estimating Tissue Viscoelasticity
Daniel Escobar, Luiz Vasconcelos, Carolina Amador Carrascal, Ivan Z. Nenadic 

Chapter 29 Nonlinear shear elasticity
Jean-Luc Gennisson and Sara Aristizabal 

Chapter 30 Current and Future Clinical Applications of Elasticity Imaging Techniques
Matthew W. Urban 

Chapter 31: Abdominal Applications of Shearwave Ultrasound Vibrometry and Supersonic Shear Imaging
Pengfei Song and Shigao Chen 

Chapter 32: Acoustic Radiation Force-Based Ultrasound Elastography for Cardiac Imaging Applications
Stephanie A. Eyerly, Maryam Vejdani-Jahromi, Vaibhav Kakkad, Peter Hollender, David Bradway,  Gregg Trahey 

Chapter 33: Cardiovascular Application of Shear Wave Elastography
Pengfei Song and Shigao Chen 

Chapter 34: Musculoskeletal Applications of Supersonic Shear Imaging
Jean-Luc Gennisson 

Chapter 35: Breast Shear Wave Elastography
Azra Alizad 

Chapter 36: Thyroid Shear Wave Elastography
Azra Alizad 

Chapter 37: Historical Growth of Ultrasound Elastography and Directions for the Future
Armen Sarvazyan and Matthew W. Urban