The Physics & Technology of Radiation Therapy, 2nd Edition

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About The Physics & Technology Of Radiation Therapy, 2nd

Product Description Introducing the 2nd edition of our highly respected radiation therapy textbook. It covers the field of radiation physics with a perfect mix of depth, insight, and humor. The 2nd edition has been guided by the 2018 ASTRO core curriculum for radiation oncology residents. Novice physicists will find the book useful when studying for board exams, with helpful chapter summaries, appendices, and extra end-of-chapter problems and questions. It features new material on digital x-ray imaging, neutron survey meters, flattening-filter free and x-band linacs, biological dose indices, electronic brachytherapy, OSLD, Cerenkov radiation, FMEA, total body irradiation, and more. Also included: ·Updated graphics in full color for increased understanding. ·Appendices on board certifications in radiation therapy for ABR, AART, and Medical Dosimetrist Certification Board. ·Dosimetry Data ·A full index Review The Physics & Technology of Radiation Therapy. 2nd Edition. Patrick N. McDermott and Colin G. Orton, Authors. Madison, WI: Medical Physics Publishing, 2018. Drs. McDermott and Orton have written an excellent timely textbook that can be used by graduate and undergraduate students of medical physics, radiation oncology residents and radiation therapy technology students. The authors are distinguished medical physicists. Dr. McDermott is the director of physics education at Beaumont Health Royal Oak Michigan. Dr. Orton is an emeritus professor in the radiation oncology department at Wayne State University. He directed the WSU Medical Physics Graduate Program for over 20 years. The book should be the first book any medical physics student interested in radiation oncology physics should buy. It is the physics book for radiation oncology residents and a necessity for the radiation technology students. The book begins with review of basic mathematics, Chapter 1, appropriate for the technology students and residents and continues with a review of basic physics in Chapter 2. These reviews are coherent and establish the formalism that follows. There are chapters on electron beam dosimetry, brachytherapy and a very complete discussion of Radiation Protection (with contributions by Cheryl Schultz). The chapter on Proton Therapy Physics stands out in its lucidity and completeness. This rapidly growing modality has a well-deserved description in this book. There are also chapters on Imaging in Radiation Therapy and Special Modalities. The chapter on Special Modalities discusses radiosurgery the gamma knife, and TBI. There is a chapter on Quality Assurance and Safety which introduces the role of regulatory bodies and QA of radiation therapy equipment. Each chapter ends with a summary and problems; Appendix D has the answers to most problems. Appendix A gives the listing of topics that need to be studied for the ABR Exam for radiation oncology residents indexed by topic to sections in the book. Similarly it gives the topics needed for the ARRT and Medical Dosimetrist Certification exams indexed to sections in the text. Appendix B contains dosimetry data for some common beams and isotopes. While Appendix D is Beam Data for a fictitious linear accelerator used in the problems. This is an excellent book; the presentation of the book diagrams, figures, pictures (many in color), and selection of problems are clear and logical and make this book a classic. It is evident that the authors have taught this subject for a long time and were able to distill and explain concepts in a clear and interesting ways. The authors have written a spellbinding textbook that belongs on the bookshelf of every medical physicist both as a reference and as guide. Because the nature of our field, constant advances in technology, this book will certainly be eclipsed; but it it surely belongs in the pantheon of great medical physics textbooks. I wish I had this book when I was a student. Summary: This is a great textbook for medical physics students, for radiation