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The path from clinical requirements to technical implementation is filtered by the translation of the modality to the technology. An important part of that filter is that the modality be safe. For that to be the case, it is imperative to understand what clinical parameters affect the safety of a treatment and then determine how the technology can affect those parameters.
This book provides a practical introduction to particle therapy. It provides a thorough introduction to the technological tools and their applications and then details the components that are needed to implement them. It
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Produktbeschreibung
The path from clinical requirements to technical implementation is filtered by the translation of the modality to the technology. An important part of that filter is that the modality be safe. For that to be the case, it is imperative to understand what clinical parameters affect the safety of a treatment and then determine how the technology can affect those parameters.

This book provides a practical introduction to particle therapy. It provides a thorough introduction to the technological tools and their applications and then details the components that are needed to implement them. It explains the foundations of beam production and beam delivery that serve to meet the necessary clinical requirements. It emphasizes the relationship between requirements and implementation, including how safety and quality are considered and implemented in the solution. The reader will learn to better understand what parameters are important to achieve these goals.

Particle Therapy Technology for Safe Treatment will be a useful resource for professionals in the field of particle therapy in addition to biomedical engineers and practitioners in the field of beam physics. It can also be used as a textbook for graduate medical physics and beam physics courses.

Key Features

Presents a practical and accessible journey from application requirements to technical solutions

Provides a pedagogic treatment of the underlying technology

Describes how safety is to be considered in the application of this technology and how safety and quality can be factored into the overall system

Author Bio

After receiving his PhD in nuclear physics, Dr. Jacob Flanz was the Accelerator Physics Group leader and Principal Research Scientist at the Massachusetts Institute of Technology (MIT), USA, where he designed the recirculator and the GeV stretcher/storage ring. He joined Massachusetts General Hospital (MGH) and Harvard and became project and technical director of proton therapy, with responsibility for specifications, integration, and commissioning ensuring safe clinical performance. He invented the universal nozzle and led the design and implementation of beam scanning at MGH in 2008, including quality assurance. Dr. Flanz has been involved in several FDA applications for particle therapy. He developed and taught the US Particle Accelerator School course "Medical Applications of Accelerators and Beams." He was cochair of education and is currently the president of the Particle Therapy Co-Operative Group.

Exercise solutions to accompany this book can be accessed via the 'Instructor Resources' tab on the book webpage.
Autorenporträt
Dr. Jacob Flanz is Associate Professor of Physics at Harvard University Medical School.After receiving his Ph.D. in nuclear physics, Dr. Flanz worked at the Massachusetts Institute of Technology. At MIT Dr. Flanz was the accelerator physics group leader and Principle Research Scientist. Included in the work done at MIT was the design, construction and commissioning of Recirculated beam equipment and a storage/stretcher ring with resonant extraction. Both of these projects used symmetry corrected optics invented by Dr. Flanz. Dr. Flanz joined the Massachusetts General Hospital and Harvard and became the Project Director and Technical Director of the Burr Proton Therapy Center. His involvement began during the proposal stages for this facility and participated in the development of the technical specifications required for a clinical Proton Therapy System. He was responsible for the system integration of the accelerator and clinical systems, and, working with vendors, to ensure that the technical systems were appropriate for the medical requirements. He contributed to the design and operational optimization of the proton therapy equipment and adaptation to the clinical uses. He played the leading role in the initial commissioning of the entire Proton Therapy system. A central focus for Dr. Flanz is the continuing upgrade of the beam delivery modality for optimal patient treatments. He led the effort for the development of the universal nozzle and the implementation, in 2008, of proton beam scanning at MGH including aspects of Quality Assurance methodology. He created the first United States Particle Accelerator School (USPAS) course on Beam Measurement at MIT. This was the first course where hands on experience was offered in beam tuning and measurement of beam properties. He developed and taught the USPAS course entitled "Medical Applications of Accelerators and Beams" numerous times. His commitment to Particle therapy extends beyond his employment. He was co-chair of the Educational Subcommittee of the Proton Therapy Cooperative Group (PTCOG) and is currently the President of PTCOG.
Rezensionen
"The book is a very personal (including many photos of his beautiful family) textbook/handbook by a particle therapy physicist who has about 45 years of experience honing his personal notes on the field through participation in many of the annual National Particle Therapy Schools as well as teaching at MGH and associations such as the AAPM and the Particle Therapy Cooperative Oncology Group (PTCOG). The author, Jay Flanz, is an MIT particle accelerator physicist who made the transition into a particle beam physicist at the start of the hospital-based proton radiotherapy era. There are few others who have seen this field's infancy and have stayed through to the present day...

The book begins by giving the reader both the evolution of particle accelerators and therapy as well as a very personal historical view by the author. The book then presents "get-up-to speed quickly" chapters on topics like setting requirements and components for particle therapy, radiation biology, basic review of the math needed, relativity, and charged particle interactions in matter with or without the presence of a magnetic field. While most medical physicists would skip over these chapters it can be argued to be extremely valuable for someone with an engineering background to read thoroughly anything that was not well known to them...The book is written for physicists, physical scientists, and engineers to give them the practical theory and knowledge so that "nothing goes wrong" for what are inarguably the most complex treatment systems ever devised. The book's title incorporates the word "safety" to emphasize that safety goes before all else. Many of his chapters end with a section called "What Could Go Wrong?"... If you are a medical physicist working in particle or insist your library order it this is a very useful book for physical scientists and engineers who are or want to be involved in particle beam radiation therapy."
-Thomas Rockwell Mackie, PHD, in Medical Physics, The International Journal of Medical Physics Research and Practice (July 2022)

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