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Radiation Oncology Management Decisions: Management Decisions
by Carlos A. Perez K. S. Clifford Chao Tony J. WangPublisher's Note: Products purchased from 3rd Party sellers are not guaranteed by the Publisher for quality, authenticity, or access to any online entitlements included with the product. Updated with details on the newest therapies and sporting a new full-color design, this latest edition of Radiation Oncology: Management Decisions continues to offer comprehensive guidance for residents as well as radiation oncologists already in professional practice. You’ll discover the latest treatment plans for numerous cancer sites and tumor types, including the mouth and sinus, gastrointestinal areas, lungs, bones, and blood. Concise, easy-to-read material you can use in a clinical setting immediately with patients!
Radiation Oncology Study Guide
by Charles R. Thomas Jr. Eric K. Hansen Ravi A. Chandra Celine B. Ord Shushan RanaNow in its second edition, this popular text remains a comprehensive study and review aid for the radiation oncology trainee and practicing radiation oncologist. The updated Radiation Oncology Study Guide, 2e maintains its robust Q&A format, and has been comprehensively updated to include the latest staging information and treatment methods. Answer rationales have been modified to a more readable, high yield bulleted format.Each chapter covers a major disease site and is divided into two main parts: Questions & Answers and Rationale. Questions review the scope of clinical practice, spanning from initial presentation to complications of treatment. General content and work-up questions emphasize “pearls” of epidemiology, anatomy, pathology, clinical presentation, and staging. Treatment content questions not only review evidence-based data guiding treatment recommendations, but also practical aspects of radiation treatment planning, pertinent radiobiology and physics, and complications of treatment. This book is an ideal resource for physicians-in-training to prepare for initial written and oral exams and physicians in practice to maintain their skills and prepare for maintenance of certification longitudinal and written exams.
Radiation Oncology Study Guide
by Charles R. Thomas Jr. Eric K. Hansen Celine Bicquart OrdRadiation Oncology Study Guide is a comprehensive study aid for radiation oncology residents preparing for the American Board of Radiology Radiation Oncology Initial Certification board exam. Presenting the fundamental principles of radiation oncology, the book covers the most salient and commonly tested facts on the exam. Organized by specific disease sites, each chapter presents a series of questions and answers that present clinical features, staging, principles of treatment, and evidence-based studies that guide treatment recommendations, with an emphasis on radiotherapy studies. The book offers over 1,000 multiple-choice questions with detailed answers and rationales.
Radiation Oncology and Radiation Biology: The Next 100 Years
by Joel GreenbergerThis book presents the fields of radiation oncology and radiation biology and projects the potential changes over the next 100 years. The first section describes the status of the medical specialty of radiation oncology and offers predictions for the evolution of the specialty over the next decades. The second section deals with the predictions of the future of radiation biology. This more comprehensive and detailed section deals with two major categories: space travel and the medical and physiological consequences of long-term exposure to space irradiation, and the late effects of ionizing irradiation on humans who have received therapeutic radiotherapy. Expanding use of high dose rate, small volume targeted stereotactic radiosurgery, and stereotactic ablative radiosurgery is expected to increase the numbers of long-term surviving patients. The medical, physiological, and radiobiological consequences of radiation late effect is described in detail. The current novel techniques of radiotherapy including FLASH irradiation, high LET particle irradiation, and novel strategies for a theranostics (combined radiographic diagnosis of metastatic deposits, and delivery of therapeutic radiation) are described, as well as the use of clinical radioisotopes in cancer therapy. This is an ideal guide for radiation oncologists and trainees who are particularly interested in where the field will progress over the next 100 years.
Radiation Oncology for Pediatric CNS Tumors
by Anita Mahajan Arnold PaulinoThis book reviews the principles and applications of radiotherapy in the management of pediatric brain tumors to allow the reader to gain a full appreciation of the major aspects involved in caring for these patients. Individual sections are devoted to basic principles, specific management for the full range of tumor entities, radiotherapy techniques, and potential toxicities and their management. The book is written and edited by world leaders in pediatric radiotherapy, and care has been taken to cover the latest advances in diagnosis and radiotherapy techniques. Pediatric brain tumors represent a diverse group of neoplasms that require carefully planned management for successful definitive treatment. Radiotherapy is one of the fundamental components in treatment for the majority of these vulnerable patients. The optimal radiation therapy approach will depend on multiple factors, including tumor type and location, extent of disease, age of the patient, and other therapies. A thorough understanding of the natural history of the disease, communication with the multidisciplinary team, full knowledge of available radiotherapy techniques, and consideration of potential acute and late toxicities are therefore essential for each patient.
Radiation Oncology in Palliative Cancer Care
by Peter Hoskin Edward Chow Stephen Lutz"This textbook, Radiation Oncology in Palliative Cancer Care, represents the full evolution of radiation therapy, and of oncology in general. ( ... ) [It] is an acknowledgment that palliative radiotherapy is now a sub-specialty of radiation oncology. This formally makes palliative radiotherapy a priority within patient care, academic research, quality assurance, and medical education." - From the Foreword by Nora Janjan, MD, MPSA, MBA, National Center for Policy Analysis, Dallas, TX, USAPalliative Medicine is the professional medical practice of prevention and relief of suffering and the support of the best possible quality of life for patients and their families, regardless of the stage of the disease or the need for other therapies. The most common cause for palliative care referral is terminal cancer, and a large proportion of those referrals include patients who will need palliative radiotherapy during the course of their disease. Still, there are barriers to coordinated care between radiation oncologists and palliative care physicians that differ from one country to another. Until now, one overarching limitation to appropriate concurrent care between the specialties across all countries has been the lack of a comprehensive yet concise reference resource that educates each of the specialties about the potential synergistic effects of their cooperation. This book fills that void.Radiation Oncology in Palliative Cancer Care:Is the first book-length treatment of this important topic available on the marketIs authored by world-renowned experts in radiation oncology and palliative medicineUses a multidisciplinary approach to content and patient treatmentFeatures decision trees for palliative radiotherapy based upon factors such as patient performance status and prognosisPays careful attention to current best practices and controversies in the delivery of end-of-life cancer careThis book is an important resource for practicing radiation oncologists and radiation oncologists in training, as well as hospice and palliative medicine physicians and nurses, medical oncologists, and geriatricians.
Radiation Oncology – Principles, Precepts and Practice: Volume I – Technical Aspects
by Atul Sharma Bidhu K. Mohanti Biplab Sarkar Anusheel Munshi Tharmarnadar Ganesh Indranil Mallick Manur Gururajachar JanakiThis book covers various aspects of radiation oncology, its principles and practice in the management of cancer types and sites in the human body. The book is in two volumes: Volume One is devoted to basic and technical aspects; Volume Two provides the clinical basis of modern radiation oncology. The chapters focus on an evidence-based multidisciplinary approach to cancer management covering the indications, contouring, treatment technique, outcomes, and toxicities related to radiotherapy for various cancer sites. It includes separate chapters on radiation biology, physics, and palliative care. Additionally, the book also addresses contemporary topics including artificial intelligence in radiation oncology, the role of protons/heavy ions, and the conduct of clinical trials in radiation oncology. The book is a relevant resource for busy radiation oncology physicians, practitioners, and trainees/residents/fellows seeking to utilize evidence in the literature to guide the management of radiation therapy patients. The book can be valuable for other disciplines such as surgical oncology, medical oncology, palliative medicine in cancer management including basic scientists working in both developed and developing countries.
Radiation Oncology: A Case-Based Review
by Gokhan Ozyigit Ugur SelekThis book is an evidence-based guide to current use of radiation therapy for the treatment of malignancies at major disease sites. It is designed to meet the needs of residents, fellows, and practicing radiation oncologists and will assist in selection and delineation of tumor volumes/fields and dose prescription for intensity-modulated radiation therapy, including volumetric modulated arc therapy for stereotactic radiosurgery or stereotactic body radiotherapy. Each tumor site-related chapter presents, from the perspective of an academic expert, informative cases at different stages in order to clarify specific clinical concepts. The coverage includes case presentation, a case-related literature review, patient preparation, simulation, contouring, treatment planning, image-guided treatment delivery, follow-up, and toxicity management. The text is accompanied by illustrations ranging from slice-by-slice delineations on planning CT images to finalized plan evaluations based on detailed acceptance criteria. The expert knowledge and evidence contained in this comprehensive book will give readers the confidence to manage common cancers without outside referral and to meet the clinical challenges faced in everyday practice.
Radiation Oncology: A MCQ and Case Study-Based Review
by Gokhan Ozyigit Murat Beyzadeoglu Ugur SelekThis updated work is an all-in-one board examination preparation book, arranged in an MCQ examination pattern instead of old-style question and answer format complemented by oral exam questions designed to meet the needs of a wide range of examinees. Radiation Oncology: A MCQ and Case Study-Based Review 2nd edition will meet the need for a practical, up-to-date, bedside-oriented radiation oncology book. Essential aspects of radiation physics, radiobiology, and clinical radiation oncology are well covered. Tumors at different sites are adressed in a series of individual chapters, and further chapters are devoted to lymphomas and total body irradiation, pediatric tumors and benign diseases. The answer keys provide clear explanations for both the correct answers and incorrect statements. It will be extremely useful for residents, fellows, and clinicians in the fields of radiation, medical, and surgical oncology, as well as for medical students, physicians, and medical physicists with an interest in clinical oncology.
Radiation Oncology: A Question-based Review
by Borislav Hristov Steven H. Lin John P. ChristodouleasPublisher's Note: Products purchased from 3rd Party sellers are not guaranteed by the Publisher for quality, authenticity, or access to any online entitlements included with the product. Known among radiation oncology residents as "the green book," Radiation Oncology: A Question-Based Review is a must-have learning tool for trainees and physicians who want to strengthen their long-term command of radiation oncology. The updated 3rd Edition reflects state-of-the-art advances in the field, with revised questions and answers, new professional guidelines, and new annual content updates for the eBook.
Radiation Physics for Medical Physicists
by Ervin B. PodgoršakThis textbook summarizes the basic knowledge of atomic, nuclear, and radiation physics that professionals working in medical physics and biomedical engineering need for efficient and safe use of ionizing radiation in medicine. Concentrating on the underlying principles of radiation physics, the textbook covers the prerequisite knowledge for medical physics courses on the graduate and post-graduate levels in radiotherapy physics, radiation dosimetry, imaging physics, and health physics, thus providing the link between elementary undergraduate physics and the intricacies of four medical physics specialties: diagnostic radiology physics, nuclear medicine physics, radiation oncology physics, and health physics. To recognize the importance of radiation dosimetry to medical physics three new chapters have been added to the 14 chapters of the previous edition. Chapter 15 provides a general introduction to radiation dosimetry. Chapter 16 deals with absolute radiation dosimetry systems that establish absorbed dose or some other dose related quantity directly from the signal measured by the dosimeter. Three absolute dosimetry techniques are known and described in detail: (i) calorimetric; (ii) chemical (Fricke), and (iii) ionometric. Chapter 17 deals with relative radiation dosimetry systems that rely on a previous dosimeter calibration in a known radiation field. Many relative radiation dosimetry systems have been developed to date and four most important categories used routinely in medicine and radiation protection are described in this chapter: (i) Ionometric dosimetry; (ii) Luminescence dosimetry; (iii) Semiconductor dosimetry; and (iv) Film dosimetry. The book is intended as a textbook for a radiation physics course in academic medical physics graduate programs as well as a reference book for candidates preparing for certification examinations in medical physics sub-specialties. It may also be of interest to many professionals, not only physicists, who in their daily occupations deal with various aspects of medical physics or radiation physics and have a need or desire to improve their understanding of radiation physics.
Radiation Physics for Nuclear Medicine
by Christoph Hoeschen Marie Claire CantoneThe field of nuclear medicine is expanding rapidly, with the development of exciting new diagnostic methods and treatments. This growth is closely associated with significant advances in radiation physics. In this book, acknowledged experts explain the basic principles of radiation physics in relation to nuclear medicine and examine important novel approaches in the field. The first section is devoted to what might be termed the "building blocks" of nuclear medicine, including the mechanisms of interaction between radiation and matter and Monte Carlo codes. In subsequent sections, radiation sources for medical applications, radiopharmaceutical development and production, and radiation detectors are discussed in detail. New frontiers are then explored, including improved algorithms for image reconstruction, biokinetic models, and voxel phantoms for internal dosimetry. Both trainees and experienced practitioners and researchers will find this book to be an invaluable source of up-to-date information.
Radiation Protection in Medical Imaging and Radiation Oncology (Series in Medical Physics and Biomedical Engineering)
by Richard J. VetterRadiation Protection in Medical Imaging and Radiation Oncology focuses on the professional, operational, and regulatory aspects of radiation protection. Advances in radiation medicine have resulted in new modalities and procedures, some of which have significant potential to cause serious harm. Examples include radiologic procedures that require ve
Radiation Protection in Medical Physics
by Yves Lemoigne Alessandra CanerThis book introduces the fundamental aspects of Radiation Protection in Medical Physics and covers three main themes: General Radiation Protection Principles; Radiobiology Principles; Radiation Protection in Hospital Medical Physics. Each of these topics is developed by analysing the underlying physics principles and their implementation, quality and safety aspects, clinical performance and recent advances in the field. Some issues specific to the individual techniques are also treated, e.g. calculation of patient dose as well as that of workers in hospital, optimisation of equipment used, shielding design of radiation facilities, radiation in oncology such as use of brachytherapy in gynecology or interventional procedures. All topics are presented with didactical language and style, making this book an appropriate reference for students and professionals seeking a comprehensive introduction to the field as well as a reliable overview of the most recent developments.
Radiation Protection in Medical Radiography
by Mary Alice Statkiewicz Sherer Paula J. Visconti E. Russell Ritenour Kelli Welch HaynesGain a full understanding of both basic and complex concepts in radiation protection, biology, and physics. <p><p> Beautifully designed and easy to follow, Radiation Protection in Medical Radiography, 8th Edition promotes the safe use of ionizing radiation in all imaging modalities, including the effects of radiation on humans at the cellular and systemic levels, regulatory and advisory limits for human exposure to radiation, and the implementation of radiation safety practices for patients and personnel. <p><p> This market-leading text reflects the latest ARRT and ASRT curriculum guidelines to help you succeed on the ARRT exam. Plus, the new edition includes tables with sensitivity ranges to provide easy reference for each type of dosimeter.
Radiation Protection in Medical Radiography, 9th Edition
by Mary Alice Statkiewicz Sherer Paula J. Visconti E. Russell Ritenour Kelli Welch HaynesMaster the basic principles and techniques of radiation safety! Radiation Protection in Medical Radiography, 9th Edition makes it easy to understand both basic and complex concepts in radiation protection, radiobiology, and radiation physics. Concise, full-color coverage discusses the safe use of ionizing radiation in all imaging modalities, including the effects of radiation on humans at the cellular and systemic levels, regulatory and advisory limits for exposure to radiation, and the implementation of radiation safety practices for patients and personnel. From a team of authors led by radiologic technology educator Mary Alice Statkiewicz Sherer, this text also prepares you for success on the ARRT certification exam and state licensing exams.- A clear and concise writing style covers key radiation protection, biology, and physics concepts in a building-block approach that progresses from basic to more complex. - Convenient, easy-to-use features make learning easier with chapter outlines and objectives, listing and highlighting of key terms, and bulleted summaries. - Full-color illustrations and photos depict important concepts, and tables make information easy to reference. - Timely coverage of radiation protection regulations addresses radiation awareness and education efforts across the globe. - Chapter summaries and review questions allow you to assess your comprehension and retention of the most important information, with answers on the Evolve companion website. - NEW! Updated content reflects the latest ARRT and ASRT curriculum guidelines. - NEW! Updated NCRP and ICRP content includes guidelines, regulations, and radiation quantities and units, explaining the effects of low-level ionizing radiation, demonstrating the link between radiation and cancer and other diseases, and providing the regulatory perspective needed for practice.
Radiation Protection in Nuclear Medicine
by Christoph Hoeschen Sören MattssonThis book explains clearly and in detail all aspects of radiation protection in nuclear medicine, including measurement quantities and units, detectors and dosimeters, and radiation biology. Discussion of radiation doses to patients and to embryos, fetuses, and children forms a central part of the book. Phantom models, biokinetic models, calculations, and software solutions are all considered, and a further chapter is devoted to quality assurance and reference levels. Occupational exposure also receives detailed attention. Exposure resulting from the production, labeling, and injection of radiopharmaceuticals and from contact with patients is discussed and shielding calculations are explained. The book closes by considering exposure of the public and summarizing the "rules of thumb" for radiation protection in nuclear medicine. This is an ideal textbook for students and a ready source of useful information for nuclear medicine specialists and medical physics experts.
Radiation Proteomics
by Dariusz LeszczynskiMethods of proteomics have been shown to be powerful tools in search of target proteins - proteins that respond in cells to an internal or an external stimulus. Proteomics is widely used in biomedical research. However, in radiation biology research, following exposures of living matter to low doses of either ionizing or non-ionizing radiation, proteomics approach is only very slowly gaining support. This book, by presenting the current status of the use of proteomics in radiation biology, will help to attract attention to the field of radiation proteomics.
Radiation Safety Guide for Nuclear Medicine Professionals
by Dibya Prakash Pankaj Tandon Subhash Chand Kheruka Nagesh N BhatThe book covers all the radiation safety aspects while working with unsealed radionuclides. Radiation safety plays a significant role in routine nuclear medicine practices and is necessary to protect occupational workers, patients, members of the general public and the environment. A fair knowledge of radiation safety is expected from all nuclear medicine professionals. Chapters include basics of radiation physics, biological bases of radiation protection, planning and design of nuclear medicine facilities, cyclotron and high dose therapy facilities, radiation safety considerations in nuclear medicine, cyclotron while preparing radiopharmaceuticals. It also includes the working mechanism of radiation detectors, quality assurance of positron emission tomography (PET) and gamma camera, including single photon emission computed tomography (SPECT), emergency preparedness plan, nuclear medicine and CT dosimetry, transport regulations, the role of national regulatory authorities and radioactive waste management. The last chapter provides probable model questions asked in the radiological safety officer certification examination and includes 250 multiple-choice questions (MCQs), 100 true or false, 60 fill in the blanks, and 40 match the following questions. The book is written in a simple language for a better understanding of the occupational workers of any grade. It serves as reference material for nuclear medicine professionals on radiation safety, related to planning, quality assurance, dosimetry and various regulations pertaining to nuclear medicine. It is a ready reckoner for the students pursuing a degree/diploma in nuclear medicine and preparing for certification courses in radiation safety to understand the subject matter along with options to attempt practice questions.
Radiation Safety in Nuclear Medicine
by Max H. Lombardi Allen Cato III Lynda SuttonRecent advances in the field of nuclear medicine (NM) are expanding the role and responsibilities of the nuclear medicine technologist (NMT) to include more complex and detailed tasks. New technologies are making the diagnosis, management, and treatment of illnesses more sensitive, more specific, more accurate, and ultimately safer for both the pat
Radiation Safety in Nuclear Medicine: A Practical, Concise Guide
by Gopal B. SahaThis book is a collection of all pertinent information on radiation safety applicable in nuclear medicine and research using radioactive materials. Radiation exposure causes harm to humans and is strictly controlled by several regulatory authorities (NRC, FDA, EPA, DOT, etc). The practice of nuclear medicine involves the use of radioactive materials in patients and research, and is well regulated by these agencies. However, information on radiation safety practice in nuclear medicine and research areas is scattered throughout the literature and federal registers. For busy nuclear technologists and professionals, it is quite time consuming to look for and acquire specific information and instructions to follow in radiation-related occasions and incidents. This guide provides ready-made, handy information on radiation safety as required in the practice of nuclear medicine, presented in a concise form for easy understanding and quick reference related to a given situation and/or incident. This is an ideal reference for nuclear medicine physicians, nuclear medicine technologists, and researchers using radioactive materials.
Radiation Safety in Nuclear Medicine: A Practical, Concise Guide
by Gopal B. SahaThis new edition is a fully updated guide to radiation safety practice for nuclear medicine professionals, and assists the nuclear medicine technologists in taking their board certifying examination. The NRC requires the appointment of a radiation safety officer (RSO) or an associate radiation safety officer (ARSO) for different uses of radioactive material. Board certified nuclear medicine technologists are eligible to be RSO and ARSO in specific uses of radioactive material after successfully completing a 40-hr or 200-hr course on radiation safety depending on the type of RAM use. This book covers all subject materials in these courses on radiation safety. This guide provides ready-made, handy information on radiation safety as required in the practice of nuclear medicine, presented in a concise form for easy understanding and quick reference related to a given situation and/or incident. The major change in the new edition of the book is the addition of questions at the end of each chapter, to ensure the comprehension of the material by the examinees taking their certifying board examinations. As mentioned in the first edition, the NRC 10CFR20 for Standards for Radiation Protection and the NRC 10CFR35 for Medical Uses of Radioactive Materials are the primary sources of practical information on radiation safety in nuclear medicine. Much of the information is still valid, but many changes and additions have also been made since, which are fully updated here. This is an ideal reference for nuclear medicine physicians, nuclear medicine technologists, and researchers using radioactive materials.
Radiation Safety in Radiation Oncology
by K. N. Govinda RajanThe proposed book aims to explain the basic principles, concepts and regulations behind radiation protection and their application in the field of radiation oncology practice. This book will be useful to all those students, teachers and practicing professionals involved in the field of radiation oncology.
Radiation Sterilization for Health Care Products: X-Ray, Gamma, and Electron Beam
by Barry P. FairandFocusing on how the radiation process works and how it is applied in sterilizing medical devices and healthcare products, Radiation Sterilization for Health Care Products covers recent developments in radiation technology such as e-beams, gamma rays, and x-rays. The author discusses the design and operation of irradiators as well as factors that affect cost and efficiency. He offers readers practical insights on this critical step in healthcare product manufacturing, its current uses, and its related cost concerns. Authortitative and comprehensive, the book brings togehter information scattered throughout the literature into one convenient resource.
Radiation Therapy Dosimetry: A Practical Handbook
by Arash DarafshehThis comprehensive book covers the everyday use and underlying principles of radiation dosimeters used in radiation oncology clinics. It provides an up-to-date reference spanning the full range of current modalities with emphasis on practical know-how. The main audience is medical physicists, radiation oncology physics residents, and medical physics graduate students. The reader gains the necessary tools for determining which detector is best for a given application. Dosimetry of cutting edge techniques from radiosurgery to MRI-guided systems to small fields and proton therapy are all addressed. Main topics include fundamentals of radiation dosimeters, brachytherapy and external beam radiation therapy dosimetry, and dosimetry of imaging modalities. Comprised of 30 chapters authored by leading experts in the medical physics community, the book: Covers the basic principles and practical use of radiation dosimeters in radiation oncology clinics across the full range of current modalities. Focuses on providing practical guidance for those using these detectors in the clinic. Explains which detector is more suitable for a particular application. Discusses the state of the art in radiotherapy approaches, from radiosurgery and MR-guided systems to advanced range verification techniques in proton therapy. Gives critical comparisons of dosimeters for photon, electron, and proton therapies.