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| electron beam radiation therapy: High Energy Electrons in Radiation Therapy A. Zuppinger, J.P. Bataini, J.M. Irigaray, F. Chu, 2012-12-06 Radiotherapy using fast electrons, whether alone or in combination with high-voltage, has met with increasing interest in the last few years. This book provides a useful account of the present state of knowledge and critically discusses where an improvement of results is certain or prob able - in contrast to results with radiotherapy using photons alone. The work also considers additional improvements which might be expected to accrue from past experience~ and particular attention is paid to the nature and possible dangers of electron therapy. Bern, August 1980 A. Zuppinger Contents Opening Address A. Zuppinger ... Physical Section Introduction J .L. Minchole ... 5 Computer Treatment Planning of Lung Radiation by Means of High Energy Electrons G. Poretti, F. Ionesco-Farca, and P. Veraguth. ... 6 Electron Beam Quality Parameters and Absorbed Dose Distributions from Therapy Accelerators A. Brahme and H. Svensson. ... . 12 ... Surface Dose in Electron Beams and Association with High Energy X-Ray Beams J.C. Ro senwald. ... 20 ... Electronic Wedge Filter for the Asklepitron 45 R. Hilnig, A.v. Arx, and A. Scholz. ... 25 ... Magnetic Field Modification of Electron Beam Dose Distributions in Inhomogeneous Media B.R. Paliwal and A.L. Wiley, Jr. ... 28 ... Conclusions of the Physical Section J.C. Rosenwald. ... 29 ... Clinical Section Clinical Radiobiology A. Zuppinger ... 33 ... Indications for Electron Beam Therapy J.P. Bataini ... 37 Contents VIII The Electron Beam Therapy for Malignant Tumors: Indications and Limitations E. Scherer and M. Bamberg. ... . 39 ... Electron Therapy for Cutaneous Epitheliomas H. Pourquier. ... 48 ... |
| electron beam radiation therapy: Stereotactic Body Radiation Therapy Simon S. Lo, Bin S. Teh, Jiade J. Lu, Tracey E. Schefter, 2012-08-28 Stereotactic body radiation therapy (SBRT) has emerged as an important innovative treatment for various primary and metastatic cancers. This book provides a comprehensive and up-to-date account of the physical/technological, biological, and clinical aspects of SBRT. It will serve as a detailed resource for this rapidly developing treatment modality. The organ sites covered include lung, liver, spine, pancreas, prostate, adrenal, head and neck, and female reproductive tract. Retrospective studies and prospective clinical trials on SBRT for various organ sites from around the world are examined, and toxicities and normal tissue constraints are discussed. This book features unique insights from world-renowned experts in SBRT from North America, Asia, and Europe. It will be necessary reading for radiation oncologists, radiation oncology residents and fellows, medical physicists, medical physics residents, medical oncologists, surgical oncologists, and cancer scientists. |
| electron beam radiation therapy: Radiation Oncology Physics International Atomic Energy Agency, 2005 This publication is aimed at students and teachers involved in teaching programmes in field of medical radiation physics, and it covers the basic medical physics knowledge required in the form of a syllabus for modern radiation oncology. The information will be useful to those preparing for professional certification exams in radiation oncology, medical physics, dosimetry or radiotherapy technology. |
| electron beam radiation therapy: Specialist Training in Oncology E-Book Thankamma V Ajithkumar, Helen Hatcher, 2011-10-28 This textbook of oncology is aimed at specialist registrars in the early phase of their training. The basic concepts of cancer practice is touched upon in undergraduate and junior postgraduate years, but new trainees frequently seek additional resources to boost their knowledge in the field of Oncology. This title offers a concise account of the multidisciplinary management of common cancers and cancer-related problems appropriate to doctors at the start of their careers in this specialty. The content of the book is based on latest available evidence and reflects the training guidelines. Readable and concise style, aimed at the beginner in this specialty. Well illustrated in colour with graphics, clinical photographs and radiographs. Section on research methodology. Approachable design in the ‘Specialist Training in...’ series style. |
| electron beam radiation therapy: Practical Radiation Oncology Supriya Mallick, Goura K. Rath, Rony Benson, 2019-11-25 This book addresses the most relevant aspects of radiation oncology in terms of technical integrity, dose parameters, machine and software specifications, as well as regulatory requirements. Radiation oncology is a unique field that combines physics and biology. As a result, it has not only a clinical aspect, but also a physics aspect and biology aspect, all three of which are inter-related and critical to optimal radiation treatment planning. In addition, radiation oncology involves a host of machines/software. One needs to have a firm command of these machines and their specifications to deliver comprehensive treatment. However, this information is not readily available, which poses serious challenges for students learning the planning aspect of radiation therapy. In response, this book compiles these relevant aspects in a single source. Radiation oncology is a dynamic field, and is continuously evolving. However, tracking down the latest findings is both difficult and time-consuming. Consequently, the book also comprehensively covers the most important trials. Offering an essential ready reference work, it represents a value asset for all radiation oncology practitioners, trainees and students. |
| electron beam radiation therapy: Radiation Therapy Physics Alfred R. Smith, 2013-11-11 The aim of this book is to provide a uniquely comprehensive source of information on the entire field of radiation therapy physics. The very significant advances in imaging, computational, and accelerator technologies receive full consideration, as do such topics as the dosimetry of radiolabeled antibodies and dose calculation models. The scope of the book and the expertise of the authors make it essential reading for interested physicians and physicists and for radiation dosimetrists. |
| electron beam radiation therapy: Clinical Radiation Oncology Leonard L. Gunderson, MD, MS, FASTRO, Joel E. Tepper, MD, 2015-08-26 Perfect for radiation oncology physicians and residents needing a multidisciplinary, treatment-focused resource, this updated edition continues to provide the latest knowledge in this consistently growing field. Not only will you broaden your understanding of the basic biology of disease processes, you'll also access updated treatment algorithms, information on techniques, and state-of-the-art modalities. The consistent and concise format provides just the right amount of information, making Clinical Radiation Oncology a welcome resource for use by the entire radiation oncology team. Content is templated and divided into three sections -- Scientific Foundations of Radiation Oncology, Techniques and Modalities, and Disease Sites - for quick access to information. Disease Sites chapters summarize the most important issues on the opening page and include a full-color format, liberal use of tables and figures, a closing section with a discussion of controversies and problems, and a treatment algorithm that reflects the treatment approach of the authors. Chapters have been edited for scientific accuracy, organization, format, and adequacy of outcome data (such as disease control, survival, and treatment tolerance). Allows you to examine the therapeutic management of specific disease sites based on single-modality and combined-modality approaches. Features an emphasis on providing workup and treatment algorithms for each major disease process, as well as the coverage of molecular biology and its relevance to individual diseases. Two new chapters provide an increased emphasis on stereotactic radiosurgery (SRS) and stereotactic body irradiation (SBRT). New Associate Editor, Dr. Andrea Ng, offers her unique perspectives to the Lymphoma and Hematologic Malignancies section. Key Points are summarized at the beginning of each disease-site chapter, mirroring the template headings and highlighting essential information and outcomes. Treatment algorithms and techniques, together with discussions of controversies and problems, reflect the treatment approaches employed by the authors. Disease Site Overviews allow each section editor to give a unique perspective on important issues, while online updates to Disease Site chapters ensure your knowledge is current. Disease Site chapters feature updated information on disease management and outcomes. Four videos accessible on Expert Consult include Intraoperative Irradiation, Prostate Brachytherapy, Penile Brachytherapy, and Ocular Melanoma. Thirty all-new anatomy drawings increase your visual understanding. Expert Consult eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, and references from the book on a variety of devices. |
| electron beam radiation therapy: Intraoperative Irradiation Leonard L. Gunderson, Christopher G. Willett, Louis B. Harrison, Felipe A. Calvo, 1999-02-22 International radiation oncologists, surgeons, and scientists comprehensively review the techniques, indications, and results of using intraoperative electrons (IOERT) and high-dose rate brachytherapy (HDR-IORT). State-of-the-art topics range from methods and techniques of treatment and issues of normal tissue/organ tolerance to IORT, to techniques and results by disease-site, as well as future possibilities. The disease-site chapters cover every body part for which the potential merit of IORT has been demonstrated, with disease-specific treatment factors presented by a radiation oncologist and a surgeon. The diseases range from GI cancers to CNS and breast malignancies. International in authorship and comprehensive in scope, Intraoperative Irradiation: Techniques and Results offers a cutting-edge resource and reference for surgeons, radiation oncologists, physicists, anesthesiologists, medical oncologists, and all others involved in providing IORT and HDR-IORT procedures and cancer care today. |
| electron beam radiation therapy: Physics of Electron Beam Therapy, S. C. Klevenhagen, 1985 A complete account of electron beam physics related to radiotherapy, covering theory, dosimetry and experimental techniques, and including much practical information for medical physicists, physics graduates and undergraduates seeking a career in radiotherapy, medical and radiographic staff in radiotherapy, engineers and technicians involved in the manufacture of radiotherapy equipment. |
| electron beam radiation therapy: Radiation Therapy for Skin Cancer Armand B Cognetta, William M. Mendenhall, 2013-06-13 Photon Radiation Therapy for Skin Malignancies is a vital resource for dermatologists interested in radiation therapy, including the physics and biology behind treatment of skin cancers, as well as useful and pragmatic formulas and algorithms for evaluating and treating them. Dermatology has always been a field that overlaps multiple medical specialties and this book is no exception, with its focus on both dermatologists and radiation oncologists. It is estimated that between 2010 and 2020, the demand for radiation therapy will exceed the number of radiation oncologists practicing in the U.S. tenfold, which could profoundly affect the ability to provide patients with sufficient access to treatment. Photon Radiation Therapy for Skin Malignancies enhances the knowledge of dermatologists and radiation oncologists and presents them with the most up-to-date information regarding detection, delineation and depth determination of skin cancers, and appropriate biopsy techniques. In addition, the book also addresses radiation therapy of the skin and the skin’s reactions to radiation therapy. |
| electron beam radiation therapy: Comprehensive Brachytherapy Jack Venselaar, Ali S. Meigooni, Dimos Baltas, Peter J. Hoskin, 2012-11-08 Modern brachytherapy is one of the most important oncological treatment modalities requiring an integrated approach that utilizes new technologies, advanced clinical imaging facilities, and a thorough understanding of the radiobiological effects on different tissues, the principles of physics, dosimetry techniques and protocols, and clinical expertise. A complete overview of the field, Comprehensive Brachytherapy: Physical and Clinical Aspects is a landmark publication, presenting a detailed account of the underlying physics, design, and implementation of the techniques, along with practical guidance for practitioners. Bridging the gap between research and application, this single source brings together the technological basis, radiation dosimetry, quality assurance, and fundamentals of brachytherapy. In addition, it presents discussion of the most recent clinical practice in brachytherapy including prostate, gynecology, breast, and other clinical treatment sites. Along with exploring new clinical protocols, it discusses major advances in imaging, robotics, dosimetry, Monte Carlo-based dose calculation, and optimization. |
| electron beam radiation therapy: Accelerated Partial Breast Irradiation David E. Wazer, Douglas W. Arthur, Frank Vicini, 2009-08-11 Accelerated partial breast irradiation (APBI) is being rapidly introduced into the clinical management of early breast cancer. APBI, in fact, encompasses a number of different techniques and approaches that include brachytherapy, intraoperative, and external beam techniques. There is currently no single source that describes these techniques and their clinical implementation. This text is a concise handbook designed to assist the clinician in the implementation of APBI. This includes a review of the principles that underlie APBI, a practical and detailed description of each technique for APBI, a review of current clinical results of APBI, and a review of the incidence and management of treatment related complications. |
| electron beam radiation therapy: Practical Radiation Oncology Physics Sonja Dieterich, Eric Ford, Daniel Pavord, Jing Zeng, 2015-08-21 Perfect for radiation oncologists, medical physicists, and residents in both fields, Practical Radiation Oncology Physics provides a concise and practical summary of the current practice standards in therapeutic medical physics. A companion to the fourth edition of Clinical Radiation Oncology, by Drs. Leonard Gunderson and Joel Tepper, this indispensable guide helps you ensure a current, state-of-the art clinical practice. Covers key topics such as relative and in-vivo dosimetry, imaging and clinical imaging, stereotactic body radiation therapy, and brachytherapy. Describes technical aspects and patient-related aspects of current clinical practice. Offers key practice guideline recommendations from professional societies throughout - including AAPM, ASTRO, ABS, ACR, IAEA, and others. Includes therapeutic applications of x-rays, gamma rays, electron and charged particle beams, neutrons, and radiation from sealed radionuclide sources, plus the equipment associated with their production, use, measurement, and evaluation. Features a For the Physician box in each chapter, which summarizes the key points with the most impact on the quality and safety of patient care. Provides a user-friendly appendix with annotated compilations of all relevant recommendation documents. Includes an enhanced Expert Consult eBook with open-ended questions, ideal for self-assessment and highlighting key points from each chapter. Download and search all of the text, figures, and references on any mobile device. |
| electron beam radiation therapy: Radiation Therapy Techniques and Treatment Planning for Breast Cancer Jennifer R. Bellon, Julia S. Wong, Shannon M. MacDonald, Alice Y. Ho, 2016-09-15 This book addresses the day-to-day treatment planning issues that radiation oncologists are likely to encounter during the treatment of breast cancer patients and provides numerous practical “tips” that will assist in navigation of the treatment planning process, from delineation of the tumor boundaries to discrimination of adjacent normal tissues and critical structures at risk of radiation injury. Differences in target delineation and treatment planning according to technique are emphasized, with coverage of conventional radiation therapy and advanced techniques including cardiac-sparing approaches, e.g., using active breathing control, intensity-modulated radiation therapy, proton beam therapy, and electron beam therapy post mastectomy. Individual chapters also focus on radiation setup and verification techniques and radiation treatment planning systems. The book, which is part of the Springer series Practical Guides in Radiation Oncology, is designed for hands-on use by radiation oncology residents/fellows in training and practicing radiation oncologists. |
| electron beam radiation therapy: Linear Accelerators for Radiation Therapy David Greene, P.C Williams, 2017-08-02 Linear Accelerators for Radiation Therapy, Second Edition focuses on the fundamentals of accelerator systems, explaining the underlying physics and the different features of these systems. This edition includes expanded sections on the treatment head, on x-ray production via multileaf and dynamic collimation for the production of wedged and other intensity modulated beams, on electron scattering systems, and on dosimetry. With high-quality illustrations and practical examples throughout, it contains a detailed description of electron beam optics and linear accelerator components. The final chapter explains how to use other equipment, such as scanners and simulators, in conjunction with linear accelerators for optimum treatment of cancers. |
| electron beam radiation therapy: Proton Therapy Physics Harald Paganetti, 2016-04-19 Proton Therapy Physics goes beyond current books on proton therapy to provide an in-depth overview of the physics aspects of this radiation therapy modality, eliminating the need to dig through information scattered in the medical physics literature. After tracing the history of proton therapy, the book summarizes the atomic and nuclear physics background necessary for understanding proton interactions with tissue. It describes the physics of proton accelerators, the parameters of clinical proton beams, and the mechanisms to generate a conformal dose distribution in a patient. The text then covers detector systems and measuring techniques for reference dosimetry, outlines basic quality assurance and commissioning guidelines, and gives examples of Monte Carlo simulations in proton therapy. The book moves on to discussions of treatment planning for single- and multiple-field uniform doses, dose calculation concepts and algorithms, and precision and uncertainties for nonmoving and moving targets. It also examines computerized treatment plan optimization, methods for in vivo dose or beam range verification, the safety of patients and operating personnel, and the biological implications of using protons from a physics perspective. The final chapter illustrates the use of risk models for common tissue complications in treatment optimization. Along with exploring quality assurance issues and biological considerations, this practical guide collects the latest clinical studies on the use of protons in treatment planning and radiation monitoring. Suitable for both newcomers in medical physics and more seasoned specialists in radiation oncology, the book helps readers understand the uncertainties and limitations of precisely shaped dose distribution. |
| electron beam radiation therapy: Encyclopedia of Radiation Oncology Luther W. Brady, Theodore Yaeger, 2012-09-15 This comprehensive encyclopedia, comprising a wide range of entries written by leading experts, provides detailed information on radiation oncology, including the most recent developments in the field. It will be of particular value for basic and clinical scientists in academia, practice, and industry and will also be of benefit to those in related fields, students, teachers, and interested laypersons. |
| electron beam radiation therapy: Khan's The Physics of Radiation Therapy Faiz M. Khan, John P. Gibbons, 2014-04-03 Expand your understanding of the physics and practical clinical applications of advanced radiation therapy technologies with Khan's The Physics of Radiation Therapy, 5th edition, the book that set the standard in the field. This classic full-color text helps the entire radiation therapy team—radiation oncologists, medical physicists, dosimetrists, and radiation therapists—develop a thorough understanding of 3D conformal radiotherapy (3D-CRT), stereotactic radiosurgery (SRS), high dose-rate remote afterloaders (HDR), intensity modulated radiation therapy (IMRT), image-guided radiation therapy (IGRT), Volumetric Modulated Arc Therapy (VMAT), and proton beam therapy, as well as the physical concepts underlying treatment planning, treatment delivery, and dosimetry. In preparing this new Fifth Edition, Dr. Kahn and new co-author Dr. John Gibbons made chapter-by-chapter revisions in the light of the latest developments in the field, adding new discussions, a new chapter, and new color illustrations throughout. Now even more precise and relevant, this edition is ideal as a reference book for practitioners, a textbook for students, and a constant companion for those preparing for their board exams. Features Stay on top of the latest advances in the field with new sections and/or discussions of Image Guided Radiation Therapy (IGRT), Volumetric Modulated Arc Therapy (VMAT), and the Failure Mode Event Analysis (FMEA) approach to quality assurance. Deepen your knowledge of Stereotactic Body Radiotherapy (SBRT) through a completely new chapter that covers SBRT in greater detail. Expand your visual understanding with new full color illustrations that reflect current practice and depict new procedures. Access the authoritative information you need fast through the new companion website which features fully searchable text and an image bank for greater convenience in studying and teaching. This is the tablet version which does not include access to the supplemental content mentioned in the text. |
| electron beam radiation therapy: Principles and Practice of Radiation Therapy Charles M. Washington, Dennis T. Leaver, 2015-04-01 The only radiation therapy text written by radiation therapists, Principles and Practice of Radiation Therapy, 4th Edition helps you understand cancer management and improve clinical techniques for delivering doses of radiation. A problem-based approach makes it easy to apply principles to treatment planning and delivery. New to this edition are updates on current equipment, procedures, and treatment planning. Written by radiation therapy experts Charles Washington and Dennis Leaver, this comprehensive text will be useful throughout your radiation therapy courses and beyond. Comprehensive coverage of radiation therapy includes a clear introduction and overview plus complete information on physics, simulation, and treatment planning. Spotlights and shaded boxes identify the most important concepts. End-of-chapter questions provide a useful review. Chapter objectives, key terms, outlines, and summaries make it easier to prioritize, understand, and retain key information. Key terms are bolded and defined at first mention in the text, and included in the glossary for easy reference. UPDATED chemotherapy section, expansion of What Causes Cancer, and inclusions of additional cancer biology terms and principles provide the essential information needed for clinical success. UPDATED coverage of post-image manipulation techniques includes new material on Cone beam utilization, MR imaging, image guided therapy, and kV imaging. NEW section on radiation safety and misadministration of treatment beams addresses the most up-to-date practice requirements. Content updates also include new ASRT Practice Standards and AHA Patient Care Partnership Standards, keeping you current with practice requirements. UPDATED full-color insert is expanded to 32 pages, and displays images from newer modalities. |
| electron beam radiation therapy: Physics for Clinical Oncology Amen Sibtain, Andrew Morgan, Niall MacDougall, 2022-11-24 Radiotherapy remains a major non-surgical treatment modality for malignant disease, and an understanding of how this treatment works is essential in ensuring optimum practice. Trainees in oncology learn about ionising radiation, but to understand it fully they must also understand the physics relevant to its use in therapy. This book is written specifically for the oncology and radiation team, supporting clinical oncologists in their understanding of the science which underpins radiotherapy. It begins with basic concepts and then explores the principles and practice of physics as it relates to radiotherapy, including discussion of specific types of therapy. Written by authors chosen for their expertise in in their respective fields, and aligned to the Royal College of Radiologists FRCR Curriculum in Oncology, this volume will provide an excellent source of information for trainee and practicing oncologists, and wider radiotherapy teams. This second edition has been fully updated to reflect advances in technology and the increased complexity in modern radiotherapy, including two new chapters on imaging and a new brachytherapy chapter. |
| electron beam radiation therapy: Absorbed Dose Determination in External Beam Radiotherapy International Atomic Energy Agency, 2000 This Code of Practice, which has also been endorsed by WHO, PAHO and ESTRO, fulfils the need for a systematic and internationally unified approach to the calibration of ionization chambers in terms of absorbed dose to water and to the use of these detectors in determining the absorbed dose to water for the radiation beams used in radiotherapy. It provides a methodology for the determination of absorbed dose to water in the low, medium and high energy photon beams, electron beams, proton beams and heavy ion beams used for external radiation therapy. |
| electron beam radiation therapy: Practical Aspects of Electron Beam Treatment Planning Colin G. Orton, Farideh Bagne, 1978 |
| electron beam radiation therapy: Improving Dose Calculations in Electron-beam Radiation Therapy John McLellan, 1996 |
| electron beam radiation therapy: Clinical Applications of the Electron Beam Norah D. Tapley, 1982 There has been an explosion in the knowledge, techniques, and clinical application of radiology in all of its specialities. This book describes the uses of the high-energy electron beam in the treatment of cancer. The author uses actual clinical histories and documents, including photographs. |
| electron beam radiation therapy: The Physics of Radiotherapy X-rays from Linear Accelerators Peter Metcalfe, Tomas Kron, Peter Hoban, 1997-01-01 |
| electron beam radiation therapy: Handbook of Treatment Planning, 2nd Ed Gregory M. M. Videtic, Neil Woody, Andrew D. Vassil, 2014-08-14 This is a highly practical resource about the specific technical aspects of delivering radiation treatment. Pocket-sized and well organized for ease of use, the book is designed to lead radiation oncology trainees and residents step by step through the basics of radiotherapy planning and delivery for all major malignancies. This second edition retains the valued features of the first edition-comprehensive yet concise, practical, evidence-based-while incorporating recent advances in the field. This includes expanded and updated discussions of SBRT for prostate and GI tumors, intraoperative. |
| electron beam radiation therapy: The Role of High Energy Electrons in the Treatment of Cancer Jerome M. Vaeth, John Meyer, 1991 |
| electron beam radiation therapy: The Physics of Radiation Therapy Faiz M. Khan, 2012-03-28 Dr. Khan's classic textbook on radiation oncology physics is now in its thoroughly revised and updated Fourth Edition. It provides the entire radiation therapy team—radiation oncologists, medical physicists, dosimetrists, and radiation therapists—with a thorough understanding of the physics and practical clinical applications of advanced radiation therapy technologies, including 3D-CRT, stereotactic radiotherapy, HDR, IMRT, IGRT, and proton beam therapy. These technologies are discussed along with the physical concepts underlying treatment planning, treatment delivery, and dosimetry. This Fourth Edition includes brand-new chapters on image-guided radiation therapy (IGRT) and proton beam therapy. Other chapters have been revised to incorporate the most recent developments in the field. This edition also features more than 100 full-color illustrations throughout. A companion Website will offer the fully searchable text and an image bank. |
| electron beam radiation therapy: Surface Guided Radiation Therapy Jeremy David Page Hoisak, Adam Brent Paxton, Benjamin James Waghorn, Todd Pawlicki, 2020-02-13 Surface Guided Radiation Therapy provides a comprehensive overview of optical surface image guidance systems for radiation therapy. It serves as an introductory teaching resource for students and trainees, and a valuable reference for medical physicists, physicians, radiation therapists, and administrators who wish to incorporate surface guided radiation therapy (SGRT) into their clinical practice. This is the first book dedicated to the principles and practice of SGRT, featuring: Chapters authored by an internationally represented list of physicists, radiation oncologists and therapists, edited by pioneers and experts in SGRT Covering the evolution of localization systems and their role in quality and safety, current SGRT systems, practical guides to commissioning and quality assurance, clinical applications by anatomic site, and emerging topics including skin mark-less setups. Several dedicated chapters on SGRT for intracranial radiosurgery and breast, covering technical aspects, risk assessment and outcomes. Jeremy Hoisak, PhD, DABR is an Assistant Professor in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Hoisak’s clinical expertise includes radiosurgery and respiratory motion management. Adam Paxton, PhD, DABR is an Assistant Professor in the Department of Radiation Oncology at the University of Utah. Dr. Paxton’s clinical expertise includes patient safety, motion management, radiosurgery, and proton therapy. Benjamin Waghorn, PhD, DABR is the Director of Clinical Physics at Vision RT. Dr. Waghorn’s research interests include intensity modulated radiation therapy, motion management, and surface image guidance systems. Todd Pawlicki, PhD, DABR, FAAPM, FASTRO, is Professor and Vice-Chair for Medical Physics in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Pawlicki has published extensively on quality and safety in radiation therapy. He has served on the Board of Directors for the American Society for Radiology Oncology (ASTRO) and the American Association of Physicists in Medicine (AAPM). |
| electron beam radiation therapy: Monte Carlo Techniques in Radiation Therapy Frank Verhaegen, Joao Seco, 2021-11-29 About ten years after the first edition comes this second edition of Monte Carlo Techniques in Radiation Therapy: Introduction, Source Modelling, and Patient Dose Calculations, thoroughly updated and extended with the latest topics, edited by Frank Verhaegen and Joao Seco. This book aims to provide a brief introduction to the history and basics of Monte Carlo simulation, but again has a strong focus on applications in radiotherapy. Since the first edition, Monte Carlo simulation has found many new applications, which are included in detail. The applications sections in this book cover the following: Modelling transport of photons, electrons, protons, and ions Modelling radiation sources for external beam radiotherapy Modelling radiation sources for brachytherapy Design of radiation sources Modelling dynamic beam delivery Patient dose calculations in external beam radiotherapy Patient dose calculations in brachytherapy Use of artificial intelligence in Monte Carlo simulations This book is intended for both students and professionals, both novice and experienced, in medical radiotherapy physics. It combines overviews of development, methods, and references to facilitate Monte Carlo studies. |
| electron beam radiation therapy: Image-Guided Radiation Therapy J. Daniel Bourland, 2012-02-22 Image-Guided Radiation Therapy presents key image-guided radiation treatment (IGRT) technologies for external beam radiotherapy. The book explores the decades-long technological developments that have occurred in the realm of image-guided conformal, customized radiation treatment. Expert authors, all of whom have actively participated in the development or implementation of IGRT, imaging, and enabling technologies, share their first-hand experiences on the science, clinical uses, and impact of these technologies. They describe kilovoltage and megavoltage imaging as well as radiological, ultrasound, and optical technologies for determining and validating target and patient positioning. The book examines how anatomical and biological imaging using CT and PET has contributed to the understanding of target volume boundaries and biological behavior. It also explores such innovations as 4D PET/CT and digital tomosynthesis. Advancing patient care, this book focuses on a wealth of hybrid IGRT technologies and devices for coupled imaging and treatment inside the radiation treatment room. It thoroughly covers the modalities, software tools, and imaging treatment geometries that constitute IGRT. |
| electron beam radiation therapy: External Beam Therapy Peter Hoskin, 2012-08-30 External beam therapy is the most common form of radiotherapy, delivering ionizing radiation such as high-energy x-rays, gamma rays or electron beams directly into the location of the patient's tumour. External Beam Therapy, Second Edition is an essential, practical guide to the use of external beam radiotherapy, highlighting the rapid technological advances made in recent years. It provides a firm background to the physics of external beam radiotherapy, taking the reader through the basic principles and discussing issues such as quality assurance. Experts within each field then expand upon techniques for treatment delivery within each anatomical site, covering indications, treatment and planning. This new edition also includes information on Stereotactic radiotherapy and coverage on the physics of proton beams. External Beam Therapy, Second Edition is an invaluable companion to trainees in medical physics, therapeutic radiography, and clinical or radiation oncology. ABOUT THE SERIES: Radiotherapy remains the major non-surgical treatment modality for the management of malignant disease. It is based on the application of the principles of applied physics, radiobiology, and tumour biology to clinical practice. Each volume in this series takes the reader through the basic principles of the use of ionising radiation and then develops this by individual sites. This series of practical handbooks are aimed at physicians both training and practising in radiotherapy, as well as medical physicists, dosimetrists, radiographers and senior nurses. |
| electron beam radiation therapy: Targeted Radionuclide Therapy Tod W. Speer, 2012-03-28 Radioimmunotherapy, also known as systemic targeted radiation therapy, uses antibodies, antibody fragments, or compounds as carriers to guide radiation to the targets. It is a topic rapidly increasing in importance and success in treatment of cancer patients. This book represents a comprehensive amalgamation of the radiation physics, chemistry, radiobiology, tumor models, and clinical data for targeted radionuclide therapy. It outlines the current challenges and provides a glimpse at future directions. With significant advances in cell biology and molecular engineering, many targeting constructs are now available that will safely deliver these highly cytotoxic radionuclides in a targeted fashion. A companion website includes the full text and an image bank. |
| electron beam radiation therapy: Shielding Techniques for Radiation Oncology Facilities Patton H. McGinley, 2002-01-01 A textbook for a senior or graduate course in medical or health physics. Students are assumed to be familiar with the radiation- producing devices used in radiation oncology. The second volume corrects some errors detected in the 1998 first, and adds discussions of intensity modulated radiation therapy, CT room design, the design of direct shielded doors, and other topics. Annotation copyrighted by Book News Inc., Portland, OR. |
| electron beam radiation therapy: Campbell Walsh Wein Urology Alan W. Partin, Craig A. Peters, Louis R. Kavoussi, Alan J. Wein, Roger R. Dmochowski, 2020-03-02 From the basic science underpinnings to the most recent developments in medical and surgical care, Campbell-Walsh-Wein Urology offers a depth and breadth of coverage you won't find in any other urology reference. Now in three manageable volumes, the revised 12th Edition is a must-have text for students, residents, and seasoned practitioners, with authoritative, up-to-date content in an intuitively organized, easy-to-read format featuring key points, quick-reference tables, and handy algorithms throughout. Features shorter, more practical chapters that help you find key information quickly. Includes new chapters on Urinary Tract Imaging: Basic Principles of Nuclear Medicine · Ethics and Informed Consent · Incisions and Access · Complications of Urologic Surgery · Urologic Considerations in Pregnancy · Intraoperative Consultation · Special Urologic Considerations in Transgender Individuals · and more. Covers hot topics such as minimally invasive and robotic surgery; advancements in urologic oncology, including innovative therapeutics for personalized medicine; new approaches to male infertility; technological advances for the treatment of stones; and advances in imaging modalities. Incorporates current AUA/EAU guidelines in each chapter as appropriate Updates all chapters with new content, new advances, and current references and best practices. Extensively updated chapters include Urological Immunotherapy, Minimally Invasive Urinary Diversion, and Updated Focal Therapy for Prostate Cancer. Features more than 175 video clips, including all-new videos on perineal ultrasound, abdominoplasty in prune belly syndrome, partial penectomy, low dose rate brachytherapy, and many more. Written and edited by key opinion leaders, reflecting essential changes and controversies in the field. Expert ConsultT eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, and references from the book on a variety of devices. |
| electron beam radiation therapy: Principles and Practice of Radiation Oncology Carlos A. Perez, Luther W. Brady, 1987 |
| electron beam radiation therapy: Textbook of Radiation Oncology Steven A. Leibel, Theodore L. Phillips, 2004 Thoroughly revised and updated, the 2nd Edition presents all of the latest advances in the field, including the most recent technologies and techniques. For each tumor site discussed, readers will find unparalleled coverage of multiple treatment plans, histology and biology of the tumor, its anatomic location and routes of spread, and utilization of specialized techniques. This convenient source also reviews all of the basic principles that underlie the selection and application of radiation as a treatment modality, including radiobiology, radiation physics, immobilization and simulation, high dose rate, intraoperative irradation, and more. Comprehensively reviews each topic, with a distinct clinical orientation throughout. Serves as a foundation for the basic principles that underlie the selection and application of radiation as a treatment modality, including radiobiology, radiation physics, immobilization and simulation, high dose rate, intraoperative irradation, and more. Guides readers through all stages of treatment application with step-by-step techniques for the assessment and implementation of radiotherapeutic options. Presents latest information on brachytherapy * 3-dimensional conformal treatment planning * sterotactic radiosurgery * and radiolabeled antibodies. Discusses the recent use of radiotherapy in the treatment of primary lymphoma, leukemia, multiple myeloma, and cancers of the prostate and central nervous system. Includes the latest AJCC staging system guidelines. Offers the latest advances in techniques, allowing you to deliver doses precisely to areas affected by malignancy and spare healthy tissue. Presents new chapters on the hottest topics including Three Dimensional Conformal Radiotherapy * Intensity Modulated Radiotherapy * Breathing Synchronized Radiotherapy * Plasma Cell Tumors: Multiple Myeloma and Solitary Plasmacytoma * Extracranial Stereotactic Radioablation * and [Imaging of the] Head and Neck * Thorax * Abdomen * and Pelvis. |
| electron beam radiation therapy: Setting Up a Radiotherapy Programme International Atomic Energy Agency, 2008 This publication provides guidance for designing and implementing radiotherapy programmes, taking into account clinical, medical physics, radiation protection and safety aspects. It reflects current requirements for radiotherapy infrastructure in settings with limited resources. It will be of use to professionals involved in the development, implementation and management of radiotherapy programmes |
| electron beam radiation therapy: Monte Carlo Transport of Electrons and Photons T.M. Jenkins, W.R. Nelson, A. Rindi, 2012-12-06 For ten days at the end of September, 1987, a group of about 75 scientists from 21 different countries gathered in a restored monastery on a 750 meter high piece of rock jutting out of the Mediterranean Sea to discuss the simulation of the transport of electrons and photons using Monte Carlo techniques. When we first had the idea for this meeting, Ralph Nelson, who had organized a previous course at the Ettore Majorana Centre for Scientific Culture, suggested that Erice would be the ideal place for such a meeting. Nahum, Nelson and Rogers became Co-Directors of the Course, with the help of Alessandro Rindi, the Director of the School of Radiation Damage and Protection, and Professor Antonino Zichichi, Director of the Ettore Majorana Centre. The course was an outstanding success, both scientifically and socially, and those at the meeting will carry the marks of having attended, both intellectually and on a personal level where many friendships were made. The scientific content of the course was at a very high caliber, both because of the hard work done by all the lecturers in preparing their lectures (e. g. , complete copies of each lecture were available at the beginning of the course) and because of the high quality of the students, many of whom were accomplished experts in the field. The outstanding facilities of the Centre contributed greatly to the success. This volume contains the formal record of the course lectures. |
| electron beam radiation therapy: Radiological Safety Aspects of the Operation of Electron Linear Accelerators William P. Swanson, 1979 Electron linear accelerators are being used throughout the world in increasing numbers in a variety of important applications. Foremost among these is their role in the treatment of cancer. Commercial uses include non-destructive testing by radiography, food preservation, product sterilization and radiation processing of materials such as plastics and adhesives. Scientific applications include investigations in radiation biology, radiation chemistry, nuclear and elementary particle physics and radiation research. This manual provides authoritative guidance in radiation protection for this important category of radiation sources. |
Build cross-platform desktop apps with JavaScript, HTML, and CSS …
With the power of modern Chromium, Electron gives you an unopinionated blank slate to build your app. Choose to integrate your favourite libraries and frameworks from the front-end …
简介 - Electron
Electron是一个使用 JavaScript、HTML 和 CSS 构建桌面应用程序的框架。 嵌入 Chromium 和 Node.js 到 二进制的 Electron 允许您保持一个 JavaScript 代码代码库并创建 在Windows上运行 …
Introduction - Electron
What is Electron? Electron is a framework for building desktop applications using JavaScript, HTML, and CSS. By embedding Chromium and Node.js into its binary, Electron allows you to …
はじめに - Electron
Electron は Chromium と Node.js をバイナリに組み込むことで、単一の JavaScript コードベースを維持しつつ、ネイテイブ開発経験無しでも Windows、macOS、Linux で動作するクロスプ …
为什么选择 Electron | Electron
Electron 是一个框架,使开发者能够将 Web 技术(HTML、JavaScript、CSS)、Node.js 及原生代码相结合,构建适用于 macOS、Windows 和 Linux 的跨平台桌面应用程序。 它基于MIT开源许 …
Building your First App - Electron
In this part of the tutorial, you will learn how to set up your Electron project and write a minimal starter application. By the end of this section, you should be able to run a working Electron app …
官方指南 - Electron
请确认你所使用的文档与你的 Electron 版本匹配。 版本号应该是页面URL的一部分。 如果没有,则你可能正在使用开发版本分支里的文档,这个分支可能包含了一些与你的 Electron 版本不 …
安装指导 - Electron
在安装过程中,electron 模块会通过 electron-download 为您的平台下载 Electron 的预编译二进制文件。 这将通过访问 GitHub 的发布下载页面来完成 ( …
Why Electron
Electron is a framework enabling developers to build cross-platform desktop applications for macOS, Windows, and Linux by combining web technologies (HTML, JavaScript, CSS) with …
Electron's blog | Electron
Apr 28, 2025 · The Electron team is excited to announce the release of Electron 33.0.0! You can install it with npm via npm install electron@latest or download it from our releases website . …
Build cross-platform desktop apps with JavaScript, HTML, and CSS …
With the power of modern Chromium, Electron gives you an unopinionated blank slate to build your app. Choose to integrate your favourite libraries and frameworks from the front-end …
简介 - Electron
Electron是一个使用 JavaScript、HTML 和 CSS 构建桌面应用程序的框架。 嵌入 Chromium 和 Node.js 到 二进制的 Electron 允许您保持一个 JavaScript 代码代码库并创建 在Windows上运行 …
Introduction - Electron
What is Electron? Electron is a framework for building desktop applications using JavaScript, HTML, and CSS. By embedding Chromium and Node.js into its binary, Electron allows you to …
はじめに - Electron
Electron は Chromium と Node.js をバイナリに組み込むことで、単一の JavaScript コードベースを維持しつつ、ネイテイブ開発経験無しでも Windows、macOS、Linux で動作するクロス …
为什么选择 Electron | Electron
Electron 是一个框架,使开发者能够将 Web 技术(HTML、JavaScript、CSS)、Node.js 及原生代码相结合,构建适用于 macOS、Windows 和 Linux 的跨平台桌面应用程序。 它基于MIT开源许 …
Building your First App - Electron
In this part of the tutorial, you will learn how to set up your Electron project and write a minimal starter application. By the end of this section, you should be able to run a working Electron app …
官方指南 - Electron
请确认你所使用的文档与你的 Electron 版本匹配。 版本号应该是页面URL的一部分。 如果没有,则你可能正在使用开发版本分支里的文档,这个分支可能包含了一些与你的 Electron 版本 …
安装指导 - Electron
在安装过程中,electron 模块会通过 electron-download 为您的平台下载 Electron 的预编译二进制文件。 这将通过访问 GitHub 的发布下载页面来完成 ( …
Why Electron
Electron is a framework enabling developers to build cross-platform desktop applications for macOS, Windows, and Linux by combining web technologies (HTML, JavaScript, CSS) with …
Electron's blog | Electron
Apr 28, 2025 · The Electron team is excited to announce the release of Electron 33.0.0! You can install it with npm via npm install electron@latest or download it from our releases website . …
