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The study of intracardiac blood flow in patients with heart disease has always been a challenging task for the modern cardiologist. The advent of color Doppler substantially enhances the clinical diagnosis of cardiovascular diseases. Three-Dimensional Color Doppler discloses the enormous diagnostic potential of the color Doppler flow imaging technique, and provides the cardiologist with a powerful new tool for studying and assessing cardiac flow disturbances. Three-dimensional Doppler enhances the diagnostic value of color Doppler by providing unique information about the actual extension, direction, origin, and size of intracardiac flow. In addition, new blood flow patterns, not previously described, can be observed and studied. This atlas represents an indispensable learning and teaching tool, not only for the echocardiologist, but also for the clinical cardiologist and for everyone involved in the diagnosis and treatment of patients with heart disease. Hardware Requirements: For IBM Compatible: Pentium Processor 8 MB RAM Colour Monitor 800 x 600 CD-ROM Drive For Macintosh: PowerPC Processor 8 MB RAM Colour Monitor 800 x 600 CD-ROM Drive
Intracardiac Echocardiography is the first echocardiographic textbook of its kind to specifically cover ICE. Discussing all aspects of intracardiac ultrasound, it allows readers to perfect ICE image acquisition and helps to guide interpretation of this information during interventional and electrophysiologic procedures. Unique and informative, the text explores: introductory echo physics currently available intracardiac ultrasound systems basic image acquisition the role of ICE in both the interventional and electrophysiology laboratory, as well as in the diagnostic setting. Featuring expert commentary by leaders in the field, the book also includes high quality echocardiographic images illustrating how ICE is used in a wide variety of procedures such as transseptal catheterization, PFO and ASD closure, atrial fibrillation ablation procedures, and many others.
The introduction of quantitative Doppler echocardiography gave rise to explo sive interest in the application of this method in clinical cardiology. However, before cardiologists could fully validate its clinical utility, they were confronted with a further development, namely color-coded Doppler flow imaging. This new technique allows a comprehensive study of the direction, velocity, uniformity and timing of intracardiac blood flow, while simultaneously revealing cardiac struc tures and their movement. 'Color Doppler' facilitates the diagnosis of a variety of cardiac conditions, and an overwhelming amount of information is available at any instant. Interpretation of these fascinating images requires a substantial experience and theoretical background. This monograph updates the application of color Doppler to both congenital and acquired heart disease. The work comprises 15 chapters written by authorities in the field, each of whom presents his most recent experience in the field. In addition, further advantages in the clinical use of pulsed and continuous wave Doppler in pediatric and adult cardiol ogy are presented. This book contains, of course, many color plates. 1. Roelandt, M.D. VII Contents Preface V List of contributors IX 1. Technical aspects and physical principles revisited Structure and performances of mono- and bidimensional pulsed Doppler systems 3 P. Peronneau, B. Diebold, J.P. Guglielmi, O. Lanusel, R. Bele, J. Souquet Estimation of transvalvular pressure drops hy Doppler echocardiography: the Bernoulli equation revisited 19 H. Rijsterborgh, 1. Roelandt Factors influencing fluid velocity measurements in valvular regurgitation 29 B. Wranne, P. Ask, D.
Since the publication of the second edition of this volume, 3D echocardiography has penetrated the clinical arena and become an indispensable tool for patient care. The previous edition, which was highly commended at the British Medical Book Awards, has been updated with recent publications and improved images. This third edition has added important new topics such as 3D Printing, Surgical and Transcatheter Management, Artificial Valves, and Infective Endocarditis. The book begins by describing the principles of 3D echocardiography, then proceeds to discuss its application to the imaging of • Left and Right Ventricle, Stress Echocardiography • Left Atrium, Hypertrophic Cardiomyopathy • Mitral Regurgitation with Surgical and Nonsurgical Procedures • Mitral Stenosis and Percutaneous Mitral Valvuloplasty • Aortic Stenosis with TAVI / TAVR • Aortic and Tricuspid Regurgitation • Adult Congenital Heart Disease, Aorta • Speckle Tracking, Cardiac Masses, Atrial Fibrillation KEY FEATURES In-depth clinical experiences of the use of 3D/2D echo by world experts Latest findings to demonstrate clinical values of 3D over 2D echo One-click view of 263 innovative videos and 352 high-resolution 3D/2D color images in a supplemental eBook.
Accurately identify complex geometrical distortions of cardiac anatomy using 3-D echocardiography and make more informed decisions regarding diagnosis and treatment. A highly visual, consistent, and practical format with online videos and more presents the authoritative, case-based, expert guidance you need to enhance your utilization and interpretation of this cutting-edge, dimensional diagnostic tool. - Master the application of techniques to specific clinical situations with detailed case studies and discussions of challenging issues. - See imaging findings as they appear in practice and discern subtle nuances with the aid of high-quality still images plus online videos. - Reference the information you need quickly thanks to easy-to-follow, templated chapters, with an abundance of images and figures that facilitate visual learning. - Take it with you anywhere! Access the full text, downloadable image library, videos, and more at www.expertconsult.com.
The use of three-dimensional ultrasound has expanded, particularly in obstetrics and gynecology clinical practice, necessitating a reference covering this and other emerging technologies. This volume presents ultrasound images in full colour accompanied by extensive captions and expert textual commentary. It provides authoritative coverage of this important technology that can help diagnose a host of conditions that heretofore would go unseen or require invasive surgery to diagnose.
The Comprehensive Atlas of 3D Echocardiography takes full advantage of today’s innovative multimedia technology. To help the reader understand the unique dynamic nature of a comprehensive 3D echocardiographic examination, the printed pages are supplemented with a companion website; this Atlas introduces the use of anatomy specimens, videos, unique imaging windows, and novel displays obtained with cropping tools. This approach offers a clear picture of how the diagnostic and monitoring capabilities of 3D echocardiography can benefit patients with a wide range of cardiovascular pathology, including congenital heart disease. By showing a large number and variety of case studies, this Atlas demonstrates how 3D echocardiography can greatly enhance the diagnosis and clinical decision-making, especially when compared to two-dimensional techniques. Whether you’re a Cardiologist, Sonographer, Anesthesiologist, Intensivist, Cardiac Surgeon, Researcher or any other Cardiovascular Medicine Professional, you’ll find this new Comprehensive Atlas of 3D Echocardiography is a must have reference book.
This book is a printed edition of the Special Issue "Ultrafast Ultrasound Imaging" that was published in Applied Sciences
This is the first book to present an overview of the exciting new cardiac imaging technique of tissue Doppler echocardiography (TDE). In order to understand the background of this technique, it is necessary to compare the physical properties of blood, which reflects ultrasound poorly but moves with high velocity (up to 150 cm/s) with those of the myocar dium, which reflects ultrasound strongly but moves with low velocity (less than 10 cm/s). In tissue Doppler imaging, existing Doppler technology has been modified to bypass the high-pass filter and enhance calculation of low velocities, thus enabling selective visualization of the myocardium rather than of the blood. Because the color Doppler tissue images are super imposed on the conventional two-dimensional ultrasound images, this technique is known as TDE. Following a brief introduction, the history of ultrasound and Doppler imaging is presented. It is now about 150 years since the death of Christian Doppler, who described the "Doppler" effect, and more than 100 years since Pierre Curie discovered the piezoelectric effects of crystals. TDE was developed by Nobuo Yamazaki and Yoshitaka Mine at the Medi cal Engineering Laboratory, Toshiba Corporation, Tochigi, Japan. En gineers involved in the development of the technique have provided important technical information, which the reader will find an invaluable background to potential applications ofTDE.