Adaptive motion compensation in radiotherapy
Author(s)
Bibliographic Information
Adaptive motion compensation in radiotherapy
(Imaging in medical diagnosis and therapy)
CRC Press, c2012
- : hbk
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
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.
Table of Contents
Introduction. Real-Time Tumor Localization. Theoretical Aspects of Target Detection and Tracking. Respiratory Gating. The CyberKnife (R) Image-Guided Frameless Radiosurgery System. Fundamentals of Tracking with a LINAC MLC. Couch-Based Target Alignment. Robotic LINAC Tracking Based on Correlation and Prediction. Treatment Planning for Motion Adaptation in Radiation Therapy. Treatment Planning for Motion Management via DMLC Tracking. Real-Time Motion Adaptation in Tomotherapy (R) using a Binary MLC. Combination of a LINAC with 1.5 T MRI for Real-Time Image-Guided Radiotherapy. The ViewRayTM System. Fault Detection in Image-Based Tracking.
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