'Radiation Oncology: MCQs for Exams' (ROME) will cover the essential aspects of radiation physics, radiobiology, and clinical radiation oncology designed to meet the needs of a large scale of examinees. Topics of this new book will be in the order of our previous "Basic Radiation Oncology" (Springer, 2010) with additional two new chapters (Pediatric tumors and Rare tumors-Benign Diseases) making a total of 15 chapters and instead of old style question and answer format,current MCQ examination pattern helpful for both oral exams and written exams is used in this comprehensive bedside recall book complementing the "Basic Radiation Oncology"1st Edition.
Basic Radiation Oncology is an all-in-one book, encompassing the essential aspects of radiation physics, radiobiology, and clinical radiation oncology. A complete section is devoted to each of these fields. In the first two sections, concepts that are crucial in radiation physics and radiobiology are reviewed in depth. The third section describes radiation treatment regimens appropriate for the main cancer sites and tumor types. The book has been designed to ensure that the reader will find it easy to use. Many "pearl boxes" are used to summarize the most information, and there are more than 350 helpful illustrations, the majority of them in color. Basic Radiation Oncology will meet the need for a practical, up-to-date, bedside-oriented radiation oncology book. 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.
This evidence-based guide to the current management of cancer cases at all head and neck sites will assist in the appropriate selection and delineation of tumor volumes/fields for intensity-modulated radiation therapy (IMRT), including volumetric modulated arc therapy (VMAT). Each tumor site-related chapter presents, from the perspective of an academic expert, several actual 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, treatment delivery, and follow-up. 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 book will be of value for residents, fellows, practicing radiation oncologists, and medical physicists interested in clinical radiation oncology