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This is a practical guide to the implementation of 3D/4D ultrasound imaging in radiography. Among its features are the coverage of the technology utilised for ultrasound-guided radiotherapy, clinical need and the advantages of using ultrasound. It is a useful tool for users that incorporates implementation, potential errors, uncertainties and training. This is a comprehensive review of the state-of-the-art technologies, which also looks at the future direction of this exciting field. Researchers, students, hospital physicists and radiographers will all find this book of use as it guides them through current clinical situation and examines the full potential of ultrasound in radiotherapy. Key Features Technology used for ultrasound guided RT Clinical need and advantages of using ultrasound Practical guide to implementation, including errors, uncertainties and training Comprehensive review of state-of-the-art Critical evaluation of field and future directions
Three dimensional (3D) and Real Time three dimensional (4D) ultrasound has changed the way scans are carried out. Such ultrasound techniques have now become acceptable as valuable methods of diagnosis. 3D and 4D ultrasound can nowadays be applied to the examination of all internal body organs. Originally developed in the field of obstetrics and gynaecology, ultrasound diagnosis is now common place throughout internal medicine. This book is the first to deal with Real Time 4D ultrasound, and discusses its usage when applied to all internal organs. This book is written by two internationally renowned practitioners of state of the art 3D and 4D ultrasound techniques.
Initially known for its beautiful images of the faces of babies, 3D ultrasound has, however, become an important tool in prenatal diagnosis for its ability to image fetal organs in normal and abnormal conditions. This book is a state-of-the-art work conceived as a practical guide to the application of 3D ultrasound in obstetrics. The authors of this book have extensive expertise in 3D ultrasound that spans for more than 25 years. The book has three sections: one section on the technical principles of 3D ultrasound, a second section on various 3D rendering tools with a step-by-step explanation of its use. The third section is dedicated to the clinical use of 3D in the examination of the fetal organs. In this 2nd edition, the entire book has been revised and actualized.
A Practical Guide to 3D Ultrasound was conceived with the beginner in mind. The guide summarizes the basics of 3D sonography in a concise manner and serves as a practical reference for daily practice. It is written in easy-to-read language and contains tables summarizing the step-by-step instructions for the techniques presented. Following introduc
3D ultrasound shows a still image of a foetus, far more detailed than the 2D flat grey scale imaging. 4D ultrasound is more advanced, showing a moving image, allowing obstetricians to evaluate foetal well-being. It is also used by gynaecologists to examine uterine anomalies. The second edition of this book is a step by step guide to 3D and 4D ultrasound in obstetrics, gynaecology and infertility. Divided into seven sections, it begins with discussion on instruments and scanning techniques, and normal pelvic anatomy by ultrasound. The following chapters examine uterine lesions and the use of ultrasound for infertility evaluation. The final sections discuss 3D/4D ultrasound in early pregnancy and foetal anatomy and malformations in mid and late pregnancy. This concise handbook has been fully updated to include the latest developments in 3D/4D ultrasound, and includes nearly 220 detailed photographs and ultrasound images. Key points Fully updated, new edition presenting latest developments in 3D and 4D ultrasound in obstetrics, gynaecology and infertility Describes normal pelvic anatomy to help recognition of anomalies and malformations Includes numerous clinical photographs and ultrasound images Previous edition published in 2008
• Provides descriptions of mechanical, tracking, and array approaches for generating 3D ultrasound images • Details the applications of 3D ultrasound for diagnostic application and in image-guided intervention and surgery • Explores the cutting-edge use of machine learning in detection, diagnosis, monitoring, and guidance for a variety of clinical applications
A Practical Guide to 3D Ultrasound was conceived with the beginner in mind. The guide summarizes the basics of 3D sonography in a concise manner and serves as a practical reference for daily practice. It is written in easy-to-read language and contains tables summarizing the step-by-step instructions for the techniques presented. Following introductory chapters covering the various technical aspects of 3D ultrasound, the book covers clinical applications of 3D ultrasound in the first trimester and for the fetal cardiovascular, genitourinary, and central nervous systems. Clinical applications of fetal anatomical structures such as the skeleton, chest, face, and gastrointestinal tract are also discussed. In addition, the clinical applicability of 3D ultrasound in obstetrics and gynecology is explored. The book is highly illustrated and contains more than 350 ultrasound images, many in color, corresponding to the techniques discussed. A table of practical tips is also included at the end of every chapter. This book is a practical and comprehensive reference for the basics surrounding 3D ultrasound.
A picture says more than a thousand words. This is something that we all know to be true. Imaging has been important since the early days of medicine and bi- ogy, as seen in the anatomical studies of Leonardo Da Vinci or Andreas Vesalius. More than 100 years ago, the ?rst noninvasive imaging technologies, such as K- rad Roentgen’s X-ray technology,were applied to the medical ?eld—and while still crude—revolutionized medical diagnosis. Today, every patient will be exposed to some kind of advanced imaging technology such as medical resonance imaging, computed tomography or four-dimensional ultrasound during their lifetime. Many diseases, such as brain tumors, are initially diagnosed solely by imaging, and most of the surgical planning relies on the patient imagery. 4D ultrasound is available to expecting parents who wish to create unique early memories of the new baby, and it may soon be used for the morphometric diagnosis of malformations that may one day be treatable—inutero! Light and electron microscopy are unequal brethren, which have contributed to most of our knowledge about the existence and organization of cells, tissues and microorganisms. Every student of biology or medicine is introduced to the fascinating images of the microcosm. New advances have converted these im- ing technologies, which were considered by many to be antiquated, into powerful tools for research in systems biology and related ?elds.
This book introduces an exciting new method for breast ultrasound diagnostics – automated whole-breast volume scanning (3D ABVS). Scanning technique is described in detail, with guidance on scanning positions and protocols. Imaging findings are then illustrated and discussed for normal breast variants, the different forms of breast cancer, fibroadenomas, cystic disease, benign and malignant male breast disorders, mastitis, breast implants, and postoperative breast scars. In order to aid appreciation of the benefits of 3D ABVS, comparisons with findings on X-ray mammography and conventional 2D hand-held US are presented. Readers will be especially impressed by the convincing demonstration of the advantages of the new method for diagnosis of breast cancer in women with dense glandular tissue. In enabling readers to learn how to perform and interpret 3D ABVS, this book will be of great value for all who are embarking on its use. It will also serve as a welcome reference for radiologists, oncologists, and ultrasonographers who already have some familiarity with the technique.