You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
This atlas is a superb guide to the use of PET-CT for the evaluation of treatment response in oncology patients based on its ability to assess tumor metabolic status. The first part of the book explains the role of PET-CT in response evaluation in different treatment settings. For comparison, overviews of the value and limitations of CT alone, PET alone, and anatomical and functional MRI are included. Guidance is also provided on the reporting of PET-CT scans in post-therapy scenarios. The second part of the book describes and illustrates the use of PET-CT with FDG and other tracers to assess the treatment response of malignancies at different anatomic sites. Featuring a wealth of images, informative case-based discussion, and evidence-based teaching points, these disease-specific chapters clearly demonstrate the key role that PET-CT can play in distinguishing early responders from patients who are non-responders or are resistant to treatment. Prompt and accurate evaluation of treatment response is vital as we enter the era of individualized medicine, and this atlas will persuade readers of the considerable advantages of PET-CT over conventional radiological and clinical methods.
Heart transplantation remains one of the major scientific achievements of twentieth century medicine. During the past four decades, it has evolved from an unproven experimental surgical technique to the most effective form of therapy for refractory end-stage heart disease. It has captured the public's imagination and expanded our understanding of fundamental immunologic mechanisms that are responsible for cellular and humorally-mediated immunity. Despite its successes, many clinical and scientific problems remain. One or more bouts of acute cellular or humoral (vascular) rejection will occur in over 75% of transplant recipients despite current immunosuppressive strategies. Further, rejection...
The ESC Textbook of Cardiovascular Imaging third edition provides extensive coverage of all cardiovascular imaging modalities. Produced in collaboration with the European Association of Cardiovascular Imaging with contributions from specialists across the globe and edited by a distinguished team of experts, it is a 'state of the art' clinically-orientated imaging reference. Now fully revised and updated with the latest imaging techniques and technology and covering even more conditions than before, it not only discusses the principles of individual modalities but also clearly demonstrates the added value each technique can bring to the treatment of all cardiac diseases. Richly illustrated wi...
A definitive resource, The ESC Textbook of Cardiovascular Imaging, second edition provides extensive coverage of all cardiovascular imaging modalities. Produced in collaboration with the European Association of Cardiovascular Imaging with contributions from specialists across the globe and edited by a distinguished team of experts, it is a 'state of the art' clinically-orientated imaging reference. Now fully revised and updated with the latest imaging techniques and technology and covering even more conditions than before, it not only discusses the principles of individual modalities but also clearly demonstrates the added value each technique can bring to the treatment of all cardiac diseas...
This book discusses the most significant recent advances in oncological molecular imaging, covering the full spectrum from basic and preclinical research to clinical practice. The content is divided into five sections, the first of which is devoted to standardized and emerging technologies and probe designs for different modalities, such as PET, SPECT, optical and optoacoustic imaging, ultrasound, CT, and MRI. The second section focuses on multiscale preclinical applications ranging from advanced microscopy and mass spectroscopy to whole-body imaging. In the third section, various clinical applications are presented, including image-guided surgery and the radiomic analysis of multiple imaging features. The final two sections are dedicated to the emerging, crucial role that molecular imaging can play in the planning and monitoring of external and internal radiotherapy, and to future challenges and prospects in multimodality imaging. Given its scope, the handbook will benefit all readers who are interested in the revolution in diagnostic and therapeutic oncology that is now being brought about by molecular imaging.
Using SWOT analysis, this book examines in detail the strengths and weaknesses of the hybrid modalities PET-CT and PET-MRI for imaging of the central nervous system, comparing their merits and evaluating their advantages over the stand-alone modalities. The aim is to employ a truly systematic approach in order to define the potential clinical benefit of these modalities and to identify shortcomings, opportunities, and threats. Clinical application of the modalities is explored in a range of conditions, including dementia and related disorders, movement disorders, psychiatric disorders, cerebrovascular disease, infection/inflammation, brain tumors, and pediatric neurologic disorders. In addition, the basics of hybrid imaging are addressed, covering physics, instrumentation, data analysis and quantitation, radiopharmaceuticals, and contrast media. PET-CT and PET-MRI in Neurology, written by experts from Europe and the United States, will be essential reading for imaging specialists and of value for neurologists, psychiatrists, neurosurgeons, and pediatricians.
Molecular imaging plays an important role in drug discovery and advanced medical practice. A symposium of world leaders in drug research and development, molecular imaging, and medical therapy including regenerative treatment and radiation therapy has led to the publication of this book. Based on the proceedings of the symposium, many excellent ideas and valuable discussions are introduced that will guide the reader toward new advances in photon detection and protein modification as well as new developments in molecular imaging itself. Both protein modification and photon detection are emerging technologies that hold forth the promise of innovative strategies for drug discovery and medical care. The publication of these proceedings is a timely means of sharing significant experience and knowledge with many specialists all over the world. This book will be of great value to a wide variety of researchers in the fields of drug development and molecular imaging technologies, leading to integrated medical therapy and progress in human health.
Building on the traditional concept of nuclear medicine, this textbook presents cutting-edge concepts of hybrid imaging and discusses the close interactions between nuclear medicine and other clinical specialties, in order to achieve the best possible outcomes for patients. Today the diagnostic applications of nuclear medicine are no longer stand-alone procedures, separate from other diagnostic imaging modalities. This is especially true for hybrid imaging guided interventional radiology or surgical procedures. Accordingly, today’s nuclear medicine specialists are actually specialists in multimodality imaging (in addition to their expertise in the diagnostic and therapeutic uses of radionuclides). This new role requires a new core curriculum for training nuclear medicine specialists. This textbook is designed to meet these new educational needs, and to prepare nuclear physicians and technologists for careers in this exciting specialty.
This book provides the reader with a comprehensive understanding of both the basic principles and the clinical applications of nuclear oncology imaging techniques. The authors have assembled a distinguished group of leaders in the field who provide valuable insight on the subject. The book also includes major chapters on the cancer patient and the pathophysiology of abnormal tissue, the evaluation of co-existing disease, and the diagnosis and therapy of specific tumors using functional imaging studies. Each chapter is heavily illustrated to assist the reader in understanding the clinical role of nuclear oncology in cancer disease therapy and management.
This is the first time detailed and updated information on the targeted delivery of imaging agents has been collected into a single handbook. This comprehensive volume presents the scientific background together with the latest experimental and clinical data in this fast-growing area. The Handbook of Targeted Delivery of Imaging Agents meets the requirements of the broadest audience including researchers, practitioners, and students. The basic principles of targeted delivery of imaging are presented and discussed together with various imaging agents and different imaging modalities such as gamma-imaging, MR-imaging, and CT, PET, and SPECT imaging. The book consists of eight parts and 39 chap...