| Authors | R. Paul Symonds, Charles Deehan, Catherine Meredith, John A. Mills |
| Publisher | Churchill Livingstone (Elsevier) |
| Year | 2012 |
| Language | English |
| Pages | 656 |
| Size | 27.45 MB |
| Extension |
Summary
Walter and Miller's Textbook of Radiotherapy: Radiation Physics, Therapy and Oncology is a cornerstone text for anyone involved in the treatment of malignant diseases using radiation. Now in its seventh edition, this comprehensive resource has been meticulously updated to reflect the significant technological advancements that have transformed radiotherapy practice. Published by Churchill Livingstone in 2012, the book continues its proud tradition of integrating the physics of radiation with its clinical application, making it an indispensable reference for students and practitioners alike.[reference:0]
The book is thoughtfully divided into two main sections to facilitate a structured learning experience. The first part establishes a solid foundation in the fundamental principles of radiation physics. It covers the essential physics concepts that underpin radiotherapy, from the basic properties of radiation to the complex interactions within biological tissues. This section ensures that readers develop a robust understanding of the physical principles before moving on to their clinical applications.
The second section adopts a systematic, site-by-site approach to oncology, emphasizing the pivotal role of radiotherapy in cancer treatment. Each chapter focuses on a specific tumor site, detailing the epidemiology, pathology, and staging of the disease, followed by a thorough discussion of the radiotherapy techniques used in its management. This structure not only highlights the clinical application of the physics learned earlier but also contextualizes radiotherapy within the broader landscape of cancer care, including its integration with chemotherapy and surgery.[reference:1]
The seventh edition incorporates several key updates that reflect the modern practice of radiotherapy. A significant emphasis is placed on the role of advanced imaging, which has become an indispensable component of both treatment planning and delivery. The book covers a wide spectrum of imaging modalities, from conventional X-rays to sophisticated techniques such as MRI, PET, and ultrasound, explaining how they are used to define targets and spare healthy tissues.[reference:2] Treatment planning and dose prediction, the core of modern radiotherapy, are explored in detail, highlighting the critical role of computational algorithms in ensuring fast and accurate dose calculations.[reference:3] Furthermore, the book provides comprehensive discussions on quality control and quality systems, which are essential for maintaining the highest standards of safety and efficacy in radiotherapy practice.[reference:4]
Designed as the core text for therapeutic radiography students, this book also serves as an essential introductory resource for trainee radiologists and clinical physicists.[reference:5] Its clear, comprehensive, and well-illustrated approach makes complex concepts accessible, while its depth ensures it remains a valuable reference for experienced professionals. The textbook is further enhanced by Evolve electronic resources, which include sample plans, additional diagnostic images, and clinical photographs, making it an invaluable tool for both learning and practical application.[reference:6]
Key Features
- Comprehensive coverage of the physics, therapy, and oncology aspects of radiotherapy in a single volume.
- Systematic, site-by-site review of tumor types and their radiotherapy management.
- Extensive updates reflecting the latest technological advances in radiotherapy treatment.
- In-depth coverage of modern imaging techniques (MRI, PET, CT) and their role in treatment planning.
- Detailed explanation of treatment planning and dose prediction algorithms.
- Dedicated chapters on quality control and quality assurance in radiotherapy.
- Integration of radiotherapy with chemotherapy and surgery in cancer management.
- Written by a team of leading experts in clinical oncology, medical physics, and radiography.
- Ideal core text for therapeutic radiography students and an essential introduction for trainee radiologists and physicists.
- Enhanced with Evolve electronic resources, including sample plans and clinical images.
- Clear, accessible writing style with numerous illustrations and diagrams.
- Trusted reference for over 40 years, now in its thoroughly revised seventh edition.
About the Authors
Professor R. Paul Symonds, MD FRCP FRCR, is a Professor in Clinical Oncology at the University of Leicester and a Consultant Oncologist at the University Hospitals of Leicester NHS Trust, UK. He brings extensive clinical and academic experience to the text.[reference:7]
Dr. Charles Deehan, BSc(Hons), MSc(Med Sci), PhD, MinstP, MIPEM, CSci, is the Head of Radiotherapy Physics at Guy's and St. Thomas' NHS Foundation Trust in London and an Honorary Senior Lecturer at King's College London.[reference:8]
Dr. John A. Mills, PhD, MinstP, MIPEM, CPhys, is a Physicist at Ariane Medical Systems Ltd. in Derby, UK.[reference:9]
Cathy Meredith, MPH, BA, DCR(T), TQFE, Cert CT, Cert Couns, is a Senior Lecturer at the School of Health, Glasgow Caledonian University, UK.[reference:10]
Related Books
- Radiation Oncology: A Physicist's Guide to Quality by Arnold C. Paulino
- Physics for Clinical Oncology by Amen Sibtain, Andrew Morgan, and Niall MacDougall
- Principles and Practice of Radiation Therapy by Charles M. Washington and Dennis T. Leaver
- Clinical Radiotherapy Physics by Gregor M. A. A. S. P. J. Williams and Arnold C. Paulino
- Gunderson & Tepper's Clinical Radiation Oncology by Joel E. Tepper and Robert L. Foote
- Radiotherapy and Oncology: The Journal of the Royal College of Radiologists by various
- Handbook of Radiotherapy Physics: Theory and Practice by P. Mayles, A. Nahum, and J. C. Rosenwald
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Frequently Asked Questions
Q: What can I learn by reading this book?
A: You will gain a comprehensive understanding of the physics, clinical application, and oncology principles of radiotherapy, covering everything from fundamental radiation physics to site-specific cancer treatment techniques.
Q: Is this book suitable for beginners?
A: Yes, it is the core text for therapeutic radiography students and an excellent introductory resource for trainee radiologists and clinical physicists.
Q: Is this book recommended for professionals?
A: Absolutely. It is a trusted reference for experienced practitioners, offering up-to-date information on the latest technological advances in radiotherapy.
Q: What topics are covered in this book?
A: The book covers radiation physics, treatment planning and dose prediction, imaging in radiotherapy (MRI, PET, CT), quality control, and systematic reviews of tumor sites and their radiotherapy management.
Q: Why is this book useful for students and researchers?
A: It provides a strong theoretical foundation and practical insights, bridging the gap between physics and clinical oncology. The inclusion of Evolve resources enhances its value for learning and research.
Q: What is new in the 7th edition?
A: The 7th edition is completely revised to reflect the huge technological advances in radiotherapy, including updates on imaging, treatment planning, and quality systems.
Q: Does the book cover the use of chemotherapy and surgery?
A: Yes, it contextualizes radiotherapy within the broader framework of cancer treatment, discussing its integration with chemotherapy and surgery.
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