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Harold C. Urschel, Jr. (Editor-in-Chief) John J. Kresl · James D. Luketich Lech Papiez ·Robert D. Timmerman (Co-Editors) Raymond A. Schulz (Contributing Editor) Treating Tumors that Move with Respiration With Contributions by Numerous Experts Foreword by E. Thomson With 116 Figures in 168 Separate Illustrations, 120 in Color and 31 Tables 123 IV Foreword Editor-in-Chief: James D. Luketich, MD Sampson Family Endowed Professor of Surgery Harold C. Urschel Jr. , MD Chief, The Heart, Lung and Chair of Cardiovascular and Thoracic Surgical Esophageal Surgery Institute Research, Education and Clinical Excellence University of Pittsburgh Medical Center, PUH, C-800 Baylor University Medical Center 200 Lothrop Street 1201 Barnett Tower Pittsburgh, PA 15213 3600 Gaston Avenue USA Dallas, TX 75246 USA Lech Papiez, PhD Associate Professor Department of Radiation Oncology University of Texas Southwestern Medical Center 5801 Forest Park Road Dallas, TX 75390 Co-Editors: USA John J. Kresl, MD, PhD Arizona Oncology Services at Robert D. Timmerman, MD St. Joseph’s Hospital & Medical Center Professor and Vice-Chairman Department of Radiation Oncology Ef? e Marie Cain Distinguished Chair in CyberKnife Center Cancer Therapy Research Barrow Neurological Institute Department of Radiation Oncology Gamma Knife Center University of Texas Southwestern Medical Center 350 West Thomas Road 5801 Forest Park Road Phoenix, Arizona 85013 Dallas, TX 75390 USA USA Library of Congress Control Number: 2007920177 ISBN 978-3-540-69885-2 Springer Berlin Heidelberg New York This work is subject to copyright.
Covers a wide range of topics on robotic radiosurgery. General topics on robotic radiosurgery include: 9 chapters on history, physics, radiobiology and technology and 24 chapters on CNS, non-CNS and future applications in robotic radiosurgery. Includes 157 figures and 93 tables,
This comprehensive encyclopedia, comprising a wide range of entries written by leading experts, provides detailed information on radiation oncology, including the most recent developments in the field. It will be of particular value for basic and clinical scientists in academia, practice, and industry and will also be of benefit to those in related fields, students, teachers, and interested laypersons.
Handbook of Robotic and Image-Guided Surgery provides state-of-the-art systems and methods for robotic and computer-assisted surgeries. In this masterpiece, contributions of 169 researchers from 19 countries have been gathered to provide 38 chapters. This handbook is 744 pages, includes 659 figures and 61 videos. It also provides basic medical knowledge for engineers and basic engineering principles for surgeons. A key strength of this text is the fusion of engineering, radiology, and surgical principles into one book. - A thorough and in-depth handbook on surgical robotics and image-guided surgery which includes both fundamentals and advances in the field - A comprehensive reference on robot-assisted laparoscopic, orthopedic, and head-and-neck surgeries - Chapters are contributed by worldwide experts from both engineering and surgical backgrounds
External-beam radiotherapy has long been challenged by the simple fact that patients can (and do) move during the delivery of radiation. Recent advances in imaging and beam delivery technologies have made the solution—adapting delivery to natural movement—a practical reality. Adaptive Motion Compensation in Radiotherapy provides the first detailed treatment of online interventional techniques for motion compensation radiotherapy. This authoritative book discusses: Each of the contributing elements of a motion-adaptive system, including target detection and tracking, beam adaptation, and patient realignment Treatment planning issues that arise when the patient and internal target are mobile Integrated motion-adaptive systems in clinical use or at advanced stages of development System control functions essential to any therapy device operating in a near-autonomous manner with limited human interaction Necessary motion-detection methodology, repositioning techniques, and approaches to interpreting and responding to target movement data in real time Medical therapy with external beams of radiation began as a two-dimensional technology in a three-dimensional world. However, in all but a limited number of scenarios, movement introduces the fourth dimension of time to the treatment problem. Motion-adaptive radiation therapy represents a truly four-dimensional solution to an inherently four-dimensional problem. From these chapters, readers will gain not only an understanding of the technical aspects and capabilities of motion adaptation but also practical clinical insights into planning and carrying out various types of motion-adaptive radiotherapy treatment.
The treatment of prostate cancer continues to be problematic owing to serious side-effects, including erectile dysfunction and urinary incontinence. Robotic radiosurgery offers a novel, rapid, non-invasive outpatient treatment option that combines robotics, advanced image-guided spatial positioning, and motion detection with submillimeter precision. This book examines all aspects of the treatment of prostate cancer with robotic radiosurgery. It explains how image-guided robotic radiosurgery overcomes the problem of patient motion during radiation therapy by continuously identifying the precise location of the prostate tumor throughout the course of treatment. Hypofractionated radiation delivery by means of robotic radiosurgery systems is also discussed in detail. The book closes by examining other emerging genitourinary applications of robotic radiosurgery. All of the authors are experts in their field who present a persuasive case for this fascinating technique.
This is a single, comprehensive handbook for clinical oncology trainees and consultants, covering the basic aspects of stereotactic radiotherapy systems and treatment.
Compensating for Quasi-periodic Motion in Robotic Radiosurgery outlines the techniques needed to accurately track and compensate for respiratory and pulsatory motion during robotic radiosurgery. The algorithms presented within the book aid in the treatment of tumors that move during respiration. In Chapters 1 and 2, the book introduces the concept of stereotactic body radiation therapy, motion compensation strategies and the clinical state-of-the-art. In Chapters 3 through 5, the author describes and evaluates new methods for motion prediction, for correlating external motion to internal organ motion, and for the evaluation of these algorithms’ output based on an unprecedented amount of real clinical data. Finally, Chapter 6 provides a brief introduction into currently investigated, open questions and further fields of research. Compensating for Quasi-periodic Motion in Robotic Radiosurgery targets researchers working in the related fields of surgical oncology, artificial intelligence, robotics and more. Advanced-level students will also find this book valuable.
Surface Guided Radiation Therapy provides a comprehensive overview of optical surface image guidance systems for radiation therapy. It serves as an introductory teaching resource for students and trainees, and a valuable reference for medical physicists, physicians, radiation therapists, and administrators who wish to incorporate surface guided radiation therapy (SGRT) into their clinical practice. This is the first book dedicated to the principles and practice of SGRT, featuring: Chapters authored by an internationally represented list of physicists, radiation oncologists and therapists, edited by pioneers and experts in SGRT Covering the evolution of localization systems and their role in quality and safety, current SGRT systems, practical guides to commissioning and quality assurance, clinical applications by anatomic site, and emerging topics including skin mark-less setups. Several dedicated chapters on SGRT for intracranial radiosurgery and breast, covering technical aspects, risk assessment and outcomes. Jeremy Hoisak, PhD, DABR is an Assistant Professor in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Hoisak’s clinical expertise includes radiosurgery and respiratory motion management. Adam Paxton, PhD, DABR is an Assistant Professor in the Department of Radiation Oncology at the University of Utah. Dr. Paxton’s clinical expertise includes patient safety, motion management, radiosurgery, and proton therapy. Benjamin Waghorn, PhD, DABR is the Director of Clinical Physics at Vision RT. Dr. Waghorn’s research interests include intensity modulated radiation therapy, motion management, and surface image guidance systems. Todd Pawlicki, PhD, DABR, FAAPM, FASTRO, is Professor and Vice-Chair for Medical Physics in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Pawlicki has published extensively on quality and safety in radiation therapy. He has served on the Board of Directors for the American Society for Radiology Oncology (ASTRO) and the American Association of Physicists in Medicine (AAPM).
Stereotactic body radiation therapy (SBRT) has emerged as an important innovative treatment for various primary and metastatic cancers. This book provides a comprehensive and up-to-date account of the physical/technological, biological, and clinical aspects of SBRT. It will serve as a detailed resource for this rapidly developing treatment modality. The organ sites covered include lung, liver, spine, pancreas, prostate, adrenal, head and neck, and female reproductive tract. Retrospective studies and prospective clinical trials on SBRT for various organ sites from around the world are examined, and toxicities and normal tissue constraints are discussed. This book features unique insights from world-renowned experts in SBRT from North America, Asia, and Europe. It will be necessary reading for radiation oncologists, radiation oncology residents and fellows, medical physicists, medical physics residents, medical oncologists, surgical oncologists, and cancer scientists.