1. Dosimetric validation of a magnetic resonance image gated radiotherapy system using a motion phantom and radiochromic film
- Author
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Dylan O'Connell, Mircea Lazea, Daniel A. Low, Yingli Yang, Percy Lee, John S. Ginn, Nzhde Agazaryan, James Lamb, David Thomas, and Minsong Cao
- Subjects
Film Dosimetry ,87.55.Qr ,Movement ,Radiotherapy Planning ,Clinical Sciences ,Medical Physiology ,Motion (geometry) ,Gating ,quality assurance ,Tracking (particle physics) ,Imaging phantom ,Phantoms ,030218 nuclear medicine & medical imaging ,Imaging ,03 medical and health sciences ,0302 clinical medicine ,Computer-Assisted ,motion management ,medicine ,Radiation Oncology Physics ,Humans ,Radiology, Nuclear Medicine and imaging ,Radiochromic film ,Radiometry ,Instrumentation ,radiotherapy ,Physics ,Radiation ,medicine.diagnostic_test ,Radiotherapy ,Phantoms, Imaging ,business.industry ,Radiotherapy Planning, Computer-Assisted ,Respiration ,Magnetic resonance imaging ,Breath holds ,Magnetic Resonance Imaging ,Other Physical Sciences ,Nuclear Medicine & Medical Imaging ,Image-Guided ,030220 oncology & carcinogenesis ,Gated radiotherapy ,Nuclear medicine ,business ,Radiotherapy, Image-Guided ,MRI - Abstract
Author(s): Lamb, James M; Ginn, John S; O'Connell, Dylan P; Agazaryan, Nzhde; Cao, Minsong; Thomas, David H; Yang, Yingli; Lazea, Mircea; Lee, Percy; Low, Daniel A | Abstract: PurposeMagnetic resonance image (MRI) guided radiotherapy enables gating directly on the target position. We present an evaluation of an MRI-guided radiotherapy system's gating performance using an MRI-compatible respiratory motion phantom and radiochromic film. Our evaluation is geared toward validation of our institution's clinical gating protocol which involves planning to a target volume formed by expanding 5 mm about the gross tumor volume (GTV) and gating based on a 3 mm window about the GTV.MethodsThe motion phantom consisted of a target rod containing high-contrast target inserts which moved in the superior-inferior direction inside a body structure containing background contrast material. The target rod was equipped with a radiochromic film insert. Treatment plans were generated for a 3 cm diameter spherical planning target volume, and delivered to the phantom at rest and in motion with and without gating. Both sinusoidal trajectories and tumor trajectories measured during MRI-guided treatments were used. Similarity of the gated dose distribution to the planned, motion-frozen, distribution was quantified using the gamma technique.ResultsWithout gating, gamma pass rates using 4%/3 mm criteria were 22-59% depending on motion trajectory. Using our clinical standard of repeated breath holds and a gating window of 3 mm with 10% target allowed outside the gating boundary, the gamma pass rate was 97.8% with 3%/3 mm gamma criteria. Using a 3 mm window and 10% allowed excursion, all of the patient tumor motion trajectories at actual speed resulting in at least 95% gamma pass rate at 4%/3 mm.ConclusionsOur results suggest that the device can be used to compensate respiratory motion using a 3 mm gating margin and 10% allowed excursion results in conjunction with repeated breath holds. Full clinical validation requires a comprehensive evaluation of tracking performance in actual patient images, outside the scope of this study.
- Published
- 2017