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Physical Principles of Medical Ultrasonics. 2nd Edition

  • ID: 2178112
  • Book
  • January 2004
  • Region: Global
  • 528 Pages
  • John Wiley and Sons Ltd
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The physical properties of ultrasound, particularly its highly directional beam behaviour, and its complex interactions with human tissues, have led to its becoming a vitally important tool in both investigative and interventional medicine, and one that still has much exciting potential. This new edition of a well–received book treats the phenomenon of ultrasound in the context of medical and biological applications, systematically discussing fundamental physical principles and concepts.

Rather than focusing on earlier treatments, based largely on the simplifications of geometrical acoustics, Physical Principles of Medical Ultrasonics examines concepts of wave acoustics, introducing them in the very first chapter. Practical implications of these concepts are explored, first the generation and nature of acoustic fields, and then their formal descriptions and measurement. Real tissues attenuate and scatter ultrasound in ways that have interesting relationships to their physical chemistry, and the book includes coverage of these topics. Physical Principles of Medical Ultrasonics also includes critical accounts and discussions of the wide variety of diagnostic and investigative applications of ultrasound that are now becoming available in medicine and biology. Lastly, the book encompasses the biophysics of ultrasound, its practical applications to therapeutic and surgical objectives, and its implications in questions of hazards to both patient and operator.

Thoroughly revised, this new edition of Physical Principles of Medical Ultrasonics will be of interest to research professionals, operators, academics and trainees in physics, applied physics, electrical engineering and bioengineering.

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List of Contributors.


Chapter 1. Basic Acoustic Theory (S. Leeman).

Chapter 2. The Generation and Structure of Acoustic Fields (C. Hill).

Chapter 3. Detection and Measurement of Acoustic Fields (C. Hill).

Chapter 4. Attenuation and Absorption (J. Bamber).

Chapter 5. Speed of Sound (J. Bamber).

Chapter 6. Reflection and Scattering (R. Dickinson and D. Nassiri).

Chapter 7. Physical Chemistry of the Ultrasound–tissue Interaction  (A. Sarvazyan and C. HIll).

Chapter 8. Ultrasonic Images and the Eye of the Observer (C. Hill).

Chapter 9. Methodology for Clinical Investigation (C. Hill and J. Bamber).

Chapter 10. Methodology for Imaging Time–Dependent Phenomena (R. Eckersley and J. Bamber).

Chapter 11. The Wider Context of Sonography (C. Hill).

Chapter 12. Ultrasonic Biophysics (G. ter Haar).

Chapter 13. Therapeutic and Surgical Applications (ter Haar).

Chapter 14. Assessment of possible Hazard in Use (G. ter Haar).

Chapter 15. Epilogue: Historical Perspectives (C. Hill).

List of Symbols.


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C. R. Hill
J. C. Bamber
G. R. ter Haar
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