1. The overshoot phenomenon in step‐and‐shoot IMRT delivery
- Author
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Gary A. Ezzell and Suzanne J Chungbin
- Subjects
Male ,Quality Control ,Step and shoot ,IMRT delivery ,Film Dosimetry ,quality assurance ,Imrt planning ,Overshoot (signal) ,Radiation Oncology Physics ,Humans ,Radiology, Nuclear Medicine and imaging ,Operations management ,Computer Simulation ,Head and neck ,Instrumentation ,Physics ,Monitor unit ,Radiation ,Medical Errors ,business.industry ,Radiotherapy Planning, Computer-Assisted ,Low dose ,Prostatic Neoplasms ,Head and Neck Neoplasms ,Dose Fractionation, Radiation ,Particle Accelerators ,Nuclear medicine ,business - Abstract
The control loop in the Varian DMLC system (V4.8) requires ~65 msec to monitor and halt the irradiation of a segment, causing an “overshoot” effect: the segment ends on a fractional monitor unit larger than that planned. As a result, the actual MU delivered may differ from that planned. In general, for step‐and‐shoot treatments, the first segment receives more, the last receives less, and intermediate segments vary. The overshoot for each segment (ΔMU) is small, approximately 0.6 MU at 600 MU/min Our IMRT planning system (Corvus) produces plans often having more than 20% of the segments with less than 1 MU/segment. Such segments may be skipped if the ΔMU exceeds the segments’ planned MU. Furthermore, QA filming often requires reducing the total MU by a factor of 4–6, increasing the potential for dosimetric error. This study measured ΔMU over a range of MU/min and MU/segment. At >5 MU/segment, the ΔMU was stable, corresponding to a delay of 62 msec. ΔMU became larger and more variable at
- Published
- 2001