Diagnostic Ultrasound Imaging: Inside Out (Biomedical Engineering)
Search for books, journals or webpages All Pages Books Journals. View on ScienceDirect. Authors: Thomas Szabo. Hardcover ISBN: Imprint: Academic Press. Published Date: 12th December Page Count: View all volumes in this series: Biomedical Engineering. Sorry, this product is currently out of stock.
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Introduction 1. Overview 2. Acoustic Wave Propagation 3. Attenuation 4. Transducers 5. Beamforming 6. Array Beamforming 7. Wave Scattering and Imaging 8. Scattering From Tissue and Tissue Characterization 9. Imaging Systems and Applications Doppler Modes Nonlinear Acoustics and Imaging Ultrasonic Exposimetry and Acoustic Measurements Ultrasound Contrast Agents Ultrasound-induced Bioeffects Elastography Therapeutic Ultrasound The Fourier Transform A.
Many new developments are comprehensively reviewed and explained, including aberration correction, acoustic measurements, acoustic radiation force imaging, alternate imaging architectures, bioeffects: diagnostic to therapeutic, Fourier transform imaging, multimode imaging, plane wave compounding, research platforms, synthetic aperture, vector Doppler, transient shear wave elastography, ultrafast imaging and Doppler, functional ultrasound and viscoelastic models.
Powered by. You are connected as. In addition to the continual influx of readers entering the field of ultrasound worldwide who need the broad grounding in the core technologies of ultrasound, this book provides those already working in these areas with clear and comprehensive expositions of these key new topics as well as introductions to state-of-the-art innovations in this field.
Product details Format Hardback pages Dimensions x x Other books in this series. Introduction to Biomedical Engineering John Enderle. Add to basket. Biomedical Image Analysis Rangaraj M. Live Cell Assays Christophe Furger. Essentials of Neurophysiology Michel J. Handbook of Neuroprosthetic Methods Warren E. Hospital Preparation for Bioterror Joseph H. Clinical Engineering Handbook Ernesto Iadanza.
ISBN 13: 9780123964878
Table of contents Introduction; Acoustic wave propagation; Attenuation; piezoelectric transducers; Beamforming; Array beamforming; Wave scattering in tissue; Imaging systems and applications; Imaging modes; Nonlinear acoustics and imaging; Ultrasonic exposimetry and acoustic measurements; Ultrasound-induced bioeffects; Contrast agents; Emerging research areas; show more. Review Text In , ten years after publishing the first edition of this book, Dr.
Szabo has updated the text and produced this second edition. The printed version is approximately one-third thicker and comes with a new cover image; there is also an e-book version available.
A lot of different items in ultrasound imaging are explained, starting with an introduction of imaging modalities, basic ultrasound wave propagation and interactions aspects with materials, as well as technological aspects as transducer models and various beam forming methods or clinical applications for ultrasound imaging and therapy. These files complement the explanations in the text and are useful for practical lessons in underpinning the theory with examples of various beamplots, Fourier transforms or for deepening the self-study.
In this second edition, most chapters were revised and topics that have been published or introduced into clinical practice within the last decade were added. To comply with the technological developments in this field, two new chapters were introduced. The first one covers modern therapeutic applications, e. The main strength of this book is its inclusion of an introduction and state-of-the-art review of physics and signal processing techniques used in ultrasound imaging and therapy in a single volume. The same topics can be found in different chapters as well, but including an explanation from another point of view that helps to clarify the complexity involved and understanding of the topics.
Unfortunately, this new printed edition is available with black-and-white images only, while in the digital e-book, colored images are available. This is a disadvantage, as images like modern Doppler images or velocity scales are less useful to the reader when printed in black-and-white. However, the publishers have recognized this drawback and have made full-color images available for download from the book's website.
The book is now 17 chapters long and, for both physicists and physicians, is a rich source of information regarding basic physics and signal processing methods, covering a broad range of topics in medical ultrasound.
It is an essential book to have on your tablet or bookshelf. Review quote "The author is successful to span the descriptive bridge between the technology implemented "inside" a modern ultrasonic imaging system for emitting and for processing the information that is coming back from "outside" after interacting with the human body. Theory and reality is combined in a comprehensive, illustrative and practical manner to enjoy the reading and learning of diagnostic ultrasound imaging. It fills the need for an advanced scientific text of diagnostic ultrasound research.
About Thomas L. Szabo Professor Szabo has contributed to the fundamental understanding and design of surface acoustic wave signal processing devices, to novel means of transduction and measurement for nondestructive evaluation using ultrasound, to seismic signal processing applied to acoustic imaging, and to the research and development of state-of-the-art diagnostic ultrasound imaging systems.
Diagnostic Ultrasound Imaging: Inside Out - Thomas L. Szabo - Google Boeken
He has published over seventy papers in these areas. His current interests in ultrasound are overcoming present limitations in imaging the body and finding new ways of extracting noninvasively diagnostically useful information about tissue structure, health and function. His research includes the following methods: digital beamforming, signal processing, miniature transducer arrays, nonlinear acoustic propagation, ultrasound-induced bioeffects, broadband measurement techniques, simulation and measurement of wave propagation in inhomogeneous media and scanning acoustic microscopy. Rating details.