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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
3D ultrasound techniques have been increasingly used in diagnosis, minimally invasive image-guided interventions, and intra-operative surgical use. Today, most ultrasound system manufacturers provide 3D imaging capability as part of the systems. This availability has stimulated researchers to develop various machine learning tools to automatically detect and diagnose diseases, such as cancer, monitor the progression and regression of diseases, such as carotid atherosclerosis, guide and track tools being introduced into the body, such as brachytherapy and biopsy needles. This edited book is divided into three sections covering 3D ultrasound devices, 3D ultrasound applications, and machine learning tools using 3D ultrasound imaging and written with physicians, engineers, and advanced graduate students in mind. Features: 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 introduc
Advanced Topics on Three-Dimensional Ultrasound in Obstetrics and Gynecology is a comprehensive and handy guide for sonographers, obstetricians, gynecology and radiology professionals, and all technicians working in ultrasound laboratories who are interested in taking advantage of all the resources provided by this imaging technique. The book is divided in three sections which give information on a variety of relevant topics: • Three-Dimensional Ultrasound Instrumentation and Technology. This section explains different ultrasound methods that can be used for three-dimensional imaging. It is complemented by a discussion on how to use the techniques in telemedicine. • The Use of Three-Dimensional Ultrasound During Pregnancy. This section explains the methods used to assess fetal organs, behavior and defects during different stages of pregnancy. • ‎The Use of Three-Dimensional Ultrasound When Evaluating Female Reproductive Physiology. This section covers diagnostic procedures for ovarian and uterine abnormalities and neoplasms. Close
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. This book is a practical guide to the use of 3D and 4D ultrasound in obstetrics and gynaecology. Divided into three sections, the text begins with an introduction to ultrasound, its working and application, its function, software, and volume calculation tools. Section Two covers clinical applications of volume ultrasound in obstetrics, explaining its use during the first trimester, for foetal abnormalities, for functional assessment of foetal brain development, and in labour. The final section discusses the application of ultrasound in gynaecology, covering uterine abnormalities, adnexal lesions, and in infertility. The book concludes with an appendix detailing different terms used by different brands. Key points Practical guide to use of 3D and 4D ultrasound in obstetrics and gynaecology Provides detailed explanation of ultrasound working, function and software Covers different uses of ultrasound for foetal monitoring, gynaecological disorders, and infertility Highly illustrated with detailed ultrasound images
All the guidance you need to enhance your understanding and clinical application of ultrasound Includes DVD with video of key techniques Surgical and Interventional Ultrasound offers a thorough survey of image-guided treatments in the OR, in the endoscopy suite, and at the bedside. This one-stop clinical companion spans virtually every kind of surgical and interventional specialty that utilizes ultrasound and delivers high-yield perspectives on using these techniques to ensure accurate clinical decision making. FEATURES: An all-in-one primer for ultrasound--packed with valuable how-to's and insights that take you through the basic exam and the full scope of interventions Essential content for residents that supplements training in surgery residency programs--from the Focused Assessment with Sonography for Trauma (FAST) exam, to intraoperative ultrasound and ultrasound-guided procedures such as breast biopsy or radiofrequency ablation Up-to-date, multidisciplinary focus on surgical and interventional ultrasound covers the array of procedures for which ultrasound is increasingly utilized Full-color illustrations with hundreds of ultrasound images Valuable opening chapter on the physics of ultrasound, which enables better quality images and a better understanding of image interpretation Important chapter on advanced technologies highlights 3D ultrasound imaging and contrast ultrasound, drawing attention to their safe and effective implementation in surgical practice Emphasis on ultrasound-guided anesthesia explains how ultrasound can enhance the precision of regional anesthetic procedures Instructive companion DVD features clips of key diagnostic and interventional techniques
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.
Diagnostic and Therapeutic Ultrasound has recently taken an explosive growth for better safer, economic, mobile and high quality healthcare. This technology is very appealing for medical applications because it is non-ionizing, non-invasive and it is available in most of the medical and clinical facilities. Its low cost, when compared with other medical image modalities, makes it one of the preferred tools for medical monitoring, follow-up and diagnosis. Besides the traditional fields of Cardiology and Obstetrics, where it is extensively used for long time, it has became also very useful in the diagnosis of diseases of the prostate, liver and coronaries and carotids atherosclerosis. However, Ultrasound images present poor quality, very low signal to noise ratio and a lot of artifacts. The extraction of useful information from Ultrasound data for diagnosis is a challenge task that makes this medical image modality a very active field of research. The difficulties are being overcome and novel and advanced methods are being proposed for detection, characterization and segmentation of abnormalities in several organs. In fact, Ultrasound application range is vast, covering almost all organs of the human body, including the brain where Tran-cranial Doppler Ultrasound is very important to assess the brain vasculature. This book presents some of the recent advances in Ultrasound imaging technology covering several organs and techniques in a Biomedical Engineering (BME) perspective. The focus of the book is in the algorithms, methodologies and systems developed by multidisciplinary research teams of engineers and physicians for Computer-Aided Diagnosis (CAD) purposes. Cardiovascular and Cancer, the most common life-threatening diseases in western countries, are two of the most important topics focused in the book. However, other advanced issues are also presented such as Intravascular Ultrasound, 3D US and Ultrasound in Computer-Aided Surgery (CAS). Some chapters are direct contributions from medical research groups where Ultrasound has also received great attention in the last decade. By this, new techniques based on Ultrasound were introduced in the clinical practice for diagnosis and therapeutics, mainly in hospital facilities.
Ultrasonic imaging is a powerful diagnostic tool available to medical practitioners, engineers and researchers today. Due to the relative safety, and the non-invasive nature, ultrasonic imaging has become one of the most rapidly advancing technologies. These rapid advances are directly related to the parallel advancements in electronics, computing, and transducer technology together with sophisticated signal processing techniques. This book focuses on state of the art developments in ultrasonic imaging applications and underlying technologies presented by leading practitioners and researchers from many parts of the world.