Comparison of sources of exit fluence variation for IMRT

Gardner, Joseph K.; Clews, Luke; Gordon, J. James; Wang, Song; Greer, Peter B.; Siebers, Jeffrey V.

Title: Comparison of sources of exit fluence variation for IMRT
Creator: Gardner, Joseph K.; Clews, Luke; Gordon, J. James; Wang, Song; Greer, Peter B.; Siebers, Jeffrey V.
Relation: Physics in Medicine and Biology Vol. 54, Issue 19, p. N451-N458
Publisher Link: http://dx.doi.org/10.1088/0031-9155/54/19/N03
Publisher: Institute of Physics (IOP) Publishing
Resource Type: journal article
Date: 2009
Description: The fluence exiting a patient during beam delivery can be used as treatment delivery quality assurance, either by direct comparison with expected exit fluences or by backprojection to reconstruct the patient dose. Multiple possible sources of measured exit fluence deviations exist, including changes in the beam delivery and changes in the patient anatomy. The purpose of this work is to compare the deviations caused by these sources. Machine delivery-related variability is measured by acquiring multiple dosimetric portal images (DPIs) of several test fields without a patient/phantom in the field over a time period of 2 months. Patient anatomy-related sources of fluence variability are simulated by computing transmission DPIs for a prostate patient using the same incident fluence for 11 different computed tomography (CT) images of the patient anatomy. The standard deviation (SD) and maximum deviation of the exit fluence, averaged over 5 mm x 5 mm square areas, is calculated for each test set. Machine delivery fluence SDs as large as 1% are observed for a sample patient field and as large as 2.5% for a picket-fence dMLC test field. Simulations indicate that day-to-day patient anatomy variations induce exit fluence SDs as large as 3.5%. The largest observed machine delivery deviations are 4% for the sample patient field and 7% for the picket-fence field, while the largest difference for the patient anatomy-related source is 8.5%. Since daily changes in patient anatomy can result in substantial exit fluence deviations, care should be taken when applying fluence back-projection to ensure that such deviations are properly attributed to their source.
Subject: fluence; exit fluence deviations; IMRT
Identifier: http://hdl.handle.net/1959.13/917561
Identifier: uon:8344
Identifier: ISSN:0031-9155
Language: eng
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