Clinical performance of a transmission detector array for the permanent supervision of IMRT deliveries |
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Authors: | Björn Poppe Hui Khee Looe Ndimofor Chofor Antje Rühmann Dietrich Harder |
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Institution: | a Working Group Medical Radiation Physics, Carl von Ossietzky University Oldenburg, Germany b Pius-Hospital, Clinic for Radiotherapy and Oncology, Oldenburg, Germany c Medical Physics and Biophysics, Georg August University, Göttingen, Germany |
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Abstract: | Background and purposeClinical evaluation of a novel dosimetric accessory serving the permanent supervision of MLC function.Materials and methodsThe DAVID system (PTW-Freiburg, Germany) is a transparent, multi-wire transmission ionization chamber, placed in the accessory holder of the treatment head. Since each of the 37 individual wires is positioned exactly below the associated leaf pair of the MLC, its signal records the opening of this leaf pair during patient treatment.ResultsThe DAVID system closes a gap in the quality assurance program, permitting the permanent in-vivo verification of IMRT plans. During dosimetric plan verification with the 2D-ARRAY (PTW-Freiburg, Germany), reference values of the 37 DAVID signals are collected, with which the DAVID readings recorded during daily patient treatment are compared. This comparison is visually displayed in the control room, and warning and alarm levels of any discrepancies can be defined. The properties of the DAVID system as a transmission device, its sensitivity to beam delivery and leaflet errors as well as its stability have been analyzed for clinically relevant examples. In a recent version, the DAVID system has been equipped with 80 wires.ConclusionsThe DAVID system permits the on-line detection of clinically relevant MLC discrepancies in IMRT deliveries. |
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Keywords: | IMRT verification In-vivo verification Quality assurance DAVID system 2D-ARRAY |
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