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This book describes the work of the second Harvard cyclotron during its 50 years of operation and includes references to about 500 publications and 40 student theses from the work. In its first 20 years, the cyclotron's primary use was for nuclear physics. During the next 30 years, emphasis switched to treating patients with proton radiotherapy.
Imagining the Elephant is a biography of Allan MacLeod Cormack, a physicist who was awarded the Nobel Prize for Medicine in 1979 for his pioneering contributions to the development of the computer-assisted tomography (CAT) scanner, an honor he shared with Godfrey Hounsfield. A modest genius who was also a dedicated family man, the book is a celebration of Cormack''s life and work. It begins with his ancestral roots in the far north of Scotland, and then chronicles his birth and early years in South Africa, his education at the University of Cape Town (UCT) and Cambridge University, and his subsequent academic appointments at UCT and Tufts University in Boston, USA. It details his discovery of the problem at Cape Town in 1956, traces his scientific footsteps all the way to Stockholm in December 1979, and then extends the odyssey to his pursuits beyond the Nobel Prize.
The Massachusetts General Hospital (MGH) has a history of excellence and is internationally recognized as a world class medical center, providing quality medical care, advancing medicine through clinical and laboratory research and facilitating the education of exceptional health care professionals. The Massachusetts General Hospital Radiation Oncology Department, staff, residents and fellows, past and present, concur that MGH stands for Man’s Greatest Hospital. This decidedly immodest assessment is widely viewed amongst this group as being manifestly true, and that perception is clearly reflected in a marvelous esprit de corp. Such an unequivocally positive attitude is solidly based on the judgment that the best possible care is provided to each MGH patient, i.e. the patient is, in fact, Number One. There is a deep sense of pride in the contributions made by this department to the scientific advancement of oncology, and to progressively and substantially increasing the proportion of patients who are free of tumor and of treatment related morbidity. Evolution of Radiation of Oncology at Massachusetts General Hospital is the work of the former Chair of the Department, Herman D. Suit. From 1970 – 2000, his guidance and management of this Department brought it to recognition as a world class center. Dr. Suit was key in the development and building of the Department that now includes The Northeast Proton Therapy Center at the MGH. His passion for the science of radiation therapy and its evolving growth through the years is evident in this book. He has assembled a fascinating chronicle, beginning with the creation of MGH in 1811 followed by personal experiences that culminated with his leadership of the Radiation Oncology Department.
Effectively perform today’s most state-of-the-art neurosurgical procedures with Youmans Neurological Surgery, 6th Edition, edited by H. Richard Winn, MD. Still the cornerstone of unquestioned guidance on surgery of the nervous system, the new edition updates you on the most exciting developments in this ever-changing field. In print and online, it provides all the cutting-edge details you need to know about functional and restorative neurosurgery (FRN)/deep brain stimulation (DBS), stem cell biology, radiological and nuclear imaging, neuro-oncology, and much more. And with nearly 100 intraoperative videos online at www.expertconsult.com, as well as thousands of full-color illustrations, this comprehensive, multimedia, 4-volume set remains the clinical neurosurgery reference you need to manage and avoid complications, overcome challenges, and maximize patient outcomes. Overcome any clinical challenge with this comprehensive and up-to-date neurosurgical reference, and ensure the best outcomes for your patients. Rely on this single source for convenient access to the definitive answers you need in your practice. Successfully perform functional and restorative neurosurgery (FRN) with expert guidance on the diagnostic aspects, medical therapy, and cutting-edge approaches shown effective in the treatment of tremor, Parkinson’s disease, dystonia, and psychiatric disorders. Sharpen your neurosurgical expertise with updated and enhanced coverage of complication avoidance and intracranial pressure monitoring, epilepsy, neuro-oncology, pain, peripheral nerve surgery, radiosurgery/radiation therapy, and much more. Master new techniques with nearly 100 surgical videos online of intraoperative procedures including endoscopic techniques for spine and peripheral nerve surgery, the surgical resection for spinal cord hemangiomas, the resection of a giant AVM; and the radiosurgical and interventional therapy for vascular lesions and tumors. Confidently perform surgical techniques with access to full-color anatomic and surgical line drawings in this totally revised illustration program. Get fresh perspectives from new section editors and authors who are all respected international authorities in their respective neurosurgery specialties. Conveniently search the complete text online, view all of the videos, follow links to PubMed, and download all images at www.expertconsult.com.
Cancer, Radiation Therapy, and the Market shows how the radiation therapy specialty in the United States (later called radiation oncology) co-evolved with its device industry throughout the twentieth-century. Academic engineers and physicians acquired financing to develop increasingly powerful radiation devices, initiated companies to manufacture the devices competitively and designed hospital and freestanding procedure units to utilize them. In the process they incorporated market strategies into medical organization and practice. This provocative inquiry concludes that public health policy needs to re-evaluate market-driven high-tech medicine and build evidence-based health care systems.
A biography of the experimental physicist Franz Simon, describing his early life in Germany, his move to Oxford in 1933, and his experimental contributions to low temperature physics. This volume is distinctive for using new source materials and the broad setting of five competing nuclear programmes.
The results of decades of research and development are providing compelling evidence about the efficacy of radiation therapy with proton and carbon ion beams to achieve superior complication free tumor control leading to a world-wide rapid growth in their clinical use. This book contains comprehensive reviews of the state of the art of the technology and physics of heavy charge particle therapy by the experts from the leading cancer centers of world that will be valuable as a practical guide for radiation therapy professionals interested in these modalities.
Radiation Oncology: Rationale, Technique, Results, by James D. Cox, MD and K. Kian Ang, MD, PhD, provides you with authoritative guidance on the latest methods for using radiotherapy to treat patients with cancer. Progressing from fundamental principles through specific treatment strategies for the cancers of each organ system, it also addresses the effects of radiation on normal structures and the avoidance of complications. This 9th edition covers the most recent indications and techniques in the field, including new developments in proton therapy and intensity-modulated radiotherapy (IMRT). It also features, for the first time, full-color images throughout the text to match those that you see in practice, and uses new color-coded treatment plans to make targets, structures, and doses easier to read at a glance. Evidence from randomized clinical trials is included whenever possible to validate clinical recommendations. The state-of-the-art coverage inside this trusted resource equips you to target cancer as effectively as possible while minimizing harm to healthy tissue. Stands apart as the only book in the field to cover the conceptual framework for the use of radiotherapy by describing the most effective techniques for treatment planning and delivery and presenting the results of each type of therapy. Emphasizes clinical uses of radiation therapy, providing pertinent, easy-to-understand information on state-of-the-art treatments. Includes information useful for non-radiotherapists, making it "recommended reading" for other oncology specialists. Offers a practical, uniform chapter structure to expedite reference. Guides you through the use of the newest radiation oncology techniques, including principles of proton therapy and new developments in intensity-modulated radiotherapy (IMRT). Incorporates evidence from randomized clinical trials whenever possible to validate clinical recommendations. Presents full-color images throughout to match the images that you see in practice. Extensive use of "combination" imaging presents a complete picture of how to more precisely locate and target the radiotherapy field.
Rather than focusing on the contributions of theoretical physicists to the understanding of the subatomic world and of the beginning of the universe - as most popular science books on particle physics do - this book is different in that, firstly, the main focus is on machine inventors and builders and, secondly, particle accelerators are not only described as discovery tools but also for their contributions to tumour diagnosis and therapy. The characters of well-known (e.g. Ernest Lawrence) and mostly unknown actors (e.g. Nicholas Christofilos) are outlined, including many colourful quotations. The overall picture supports the author’s motto: “Physics is beautiful and useful”. Advance appraisal: “Accelerators go all the way from the unique and gargantuan Large Hadron Collider to thousands of smaller versions in hospitals and industry. Ugo Amaldi has experience across the range. He has worked at CERN and has for many years been driving the application of accelerators in medicine. This is a must-read introduction to this frontier of modern technology, written beautifully by a world expert.” Frank Close, Professor of Physics at Oxford University author of "The Infinity Puzzle" “This book should be read by school teachers and all those interested in the exploration of the microcosm and its relation to cosmology, and in the use of accelerators for medical applications. With a light hand and without formulae the autho r easily explains complicated matters, spicing up the text with amusing historical anecdotes. His reputation as an outstanding scientist in all the fields treated guarantees high standards.” Herwig Schopper, former CERN Director General author of "LEP - The Lord of the Collider Rings at CERN" “This book tells the story of modern physics with an unusual emphasis on the machine-builders who made it all possible, and their machines. Learning to accelerate particles has enabled physicists to probe the subatomic world and gain a deeper understanding of the cosmos. It has also brought numerous benefits to medicine, from the primitive X-ray machines of over a century ago to today's developments in hadron therapy for cancer. Amaldi tells this story in a most fascinating way.” Edward Witten, Professor of Mathematical Physics at the Institute for Advanced Study in Princeton; Fields Medal (1990)
Developments at the nanoscale are leading to new possibilities and challenges for nuclear applications in areas ranging from medicine to international commerce to atomic power production/waste treatment. Progress in nanotech is helping the nuclear industry slash the cost of energy production. It also continues to improve application reliability and safety measures, which remain a critical concern, especially since the reactor disasters in Japan. Exploring the new wide-ranging landscape of nuclear function, Atomic Nanoscale Technology in the Nuclear Industry details the breakthroughs in nanoscale applications and methodologies that are revolutionizing power production, biotechnology, and material science. Developments in atomic nanoscale technology have given us the ability to: Use ion beams to Investigate and optimize radiation energy losses at the nanoscopic level Assess nanoscopic safety circumstances involved in a reactor failure Analyze characteristics of nuclear spacecraft operating in the nanogravity of deep space Evaluate light collection enhancement for digital X-ray detection Apply brachytherapy using radioisotopes for cancer therapy Treat nuclear waste at the nanoscopic level Use systems-thinking decision making to analyze financial progress of nanotech in the energy industry Assess safety (and safety management methods) for nuclear nanomaterials used in plant operations Representing a first step in multi-combinatorial research, this text incorporates advanced studies that use Monte Carlo and solid-state measurement (including radiation detection) methods. Researchers used these to demonstrate the potential to upgrade methods of radiation protection and nuclear reactor operation (safety, waste disposal, etc.). The author also addresses how we can use nanotechnology to address industrial concerns and enhance nuclear medicine techniques. He highlights several nanomaterial systems and devices to illustrate developments in this area. About the Author: Taeho Woo launched the specialized field of atomic multinology (interdisciplinary research of nuclear technology), which combines the application of information technology, biotechnology, and nanotechnology in the nuclear industry.