Description

Book Synopsis
To correctly diagnose a human organism with the help of acoustic waves is impossible without knowledge of the physics of acoustic waves interaction with the issues of the organism. This book is dedicated to the given problem. It consists of four sections, the first of which deals with physical models of the biological issues used in ultrasonic diagnostics. In the other sections the basic stages of ultrasonic diagnostics (sound radiation, sound scattering, depictions visualization) are studied. It is shown how different bodies and issues of a human organism scatter acoustic waves and how, using the scattered wave, one learns about what happens with some body or issue.

Trade Review

Very didactically organized, with ample attention for mathematical detail, which nowhere becomes so complicated that it obscures the physics behind it [...] The first three chapter give a thorough but accessible description of the physics of ultrasonic pulse-echo imaging, while the fourth discusses the possible methods to apply these data for 2D, 3D or time-dependent imagery [...] This book is a useful addition to the ultrasonic imaging literature, stepping into the - rather large - gap between more engineering-oriented texts and theoretical works.

G. van Soest, PhD; Biomedical Engineering, Thorax center, Erasmus MC Rotterdam, the Netherlands



Table of Contents
INTRODUCTION Chapter 1. MODEL 1.1. Biological Tissue as a Homogeneous Continuum 1.2. Types of Biological Continua 1.3. Organism as a Heterogeneous Continuum 1.4. Equations of Motion of Biological Continua 1.5. Physical Nature of Ultrasonic Diagnostics Chapter 2. EMISSION 2.1. Unbounded Plane Emitter 2.2. Point Emitter (Monopole) 2.3. Bounded Plane Emitter 2.4. Point Emitter (Dipole) 2.5. Generation of Acoustic Oscillations Chapter 3. SCATTERING 3.1. Nature of a Scattered Wave 3.2. Immobile Large-Scale Inhomogeneities 3.3. Immobile Large-Scale Inhomogeneities with Boundary Layer 3.4. Immobile Small-Scale Inhomogeneities 3.5. Immobile Mesoscale Inhomogeneities 3.6. Mobile Inhomogeneities 3.7. Systems of Scatterers Chapter 4. VISUALIZATION 4.1. What Is Visualization? 4.2. Modes of Visualization 4.3. Defects of Acoustic Images AFTERWORD

Ultrasonic Diagnostics in Medicine: Physical

    Product form

    £275.50

    Includes FREE delivery

    RRP £290.00 – you save £14.50 (5%)

    Order before 4pm today for delivery by Wed 1 Jul 2026.

    A Hardback by Leonid A. Bulavin, Zabashta

      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Ultrasonic Diagnostics in Medicine: Physical by Leonid A. Bulavin

      Publisher: Brill
      Publication Date: 26/03/2007
      ISBN13: 9789067644464, 978-9067644464
      ISBN10: 9067644463
      Also in:
      Biomedical engineering / Medical engineering Medicine / Healthcare: general issues / topics Environmental science, engineering and technology

      Description

      Book Synopsis
      To correctly diagnose a human organism with the help of acoustic waves is impossible without knowledge of the physics of acoustic waves interaction with the issues of the organism. This book is dedicated to the given problem. It consists of four sections, the first of which deals with physical models of the biological issues used in ultrasonic diagnostics. In the other sections the basic stages of ultrasonic diagnostics (sound radiation, sound scattering, depictions visualization) are studied. It is shown how different bodies and issues of a human organism scatter acoustic waves and how, using the scattered wave, one learns about what happens with some body or issue.

      Trade Review

      Very didactically organized, with ample attention for mathematical detail, which nowhere becomes so complicated that it obscures the physics behind it [...] The first three chapter give a thorough but accessible description of the physics of ultrasonic pulse-echo imaging, while the fourth discusses the possible methods to apply these data for 2D, 3D or time-dependent imagery [...] This book is a useful addition to the ultrasonic imaging literature, stepping into the - rather large - gap between more engineering-oriented texts and theoretical works.

      G. van Soest, PhD; Biomedical Engineering, Thorax center, Erasmus MC Rotterdam, the Netherlands



      Table of Contents
      INTRODUCTION Chapter 1. MODEL 1.1. Biological Tissue as a Homogeneous Continuum 1.2. Types of Biological Continua 1.3. Organism as a Heterogeneous Continuum 1.4. Equations of Motion of Biological Continua 1.5. Physical Nature of Ultrasonic Diagnostics Chapter 2. EMISSION 2.1. Unbounded Plane Emitter 2.2. Point Emitter (Monopole) 2.3. Bounded Plane Emitter 2.4. Point Emitter (Dipole) 2.5. Generation of Acoustic Oscillations Chapter 3. SCATTERING 3.1. Nature of a Scattered Wave 3.2. Immobile Large-Scale Inhomogeneities 3.3. Immobile Large-Scale Inhomogeneities with Boundary Layer 3.4. Immobile Small-Scale Inhomogeneities 3.5. Immobile Mesoscale Inhomogeneities 3.6. Mobile Inhomogeneities 3.7. Systems of Scatterers Chapter 4. VISUALIZATION 4.1. What Is Visualization? 4.2. Modes of Visualization 4.3. Defects of Acoustic Images AFTERWORD

      Recently viewed products

      © 2026 Book Curl

        • American Express
        • Apple Pay
        • Diners Club
        • Discover
        • Google Pay
        • Maestro
        • Mastercard
        • PayPal
        • Shop Pay
        • Union Pay
        • Visa

        Login

        Forgot your password?

        Don't have an account yet?
        Create account