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AUTEURS ››Bouzid D, Boussion N, Dupré Pierre-François, Bert J, Pradier O, Visvikis D
Title ››Personalized 3D dose prediction for Intrabeam™ treatments based on patient CT imaging with Monte Carlo GATE simulations
DANS ››7th Intrabeam User meeting
PUBLIE EN ››2013
TYPE PUBLI ››Conférence
LANGUE ››GB
Keywords ››IORT, dosimetry, monte carlo, GATE
RESUME ››Purpose: The aim of partial breast irradiation is to reduce the risk of local recurrence into the tumor bed. After surgical resection of the tumor, the IntrabeamTM system delivers a single dose fraction of 20 Gy at the surface of the applicator, irradiating the tumor bed through a 50keV X-ray beam. However, there is currently no latitude for personalized dose prescription which is in contrast to official recommendations for individual dose optimization in radiotherapy. In this context, the study aim was to perform personalized 3D dose prediction for Intrabeam™ treatments based on patient CT imaging using Monte Carlo (MC) simulations.
Methods: A model of the Intrabeam™ system was developed with GATE taking into account the different parts of the device. A preoperative CT acquisition of the patient breast is performed and included in the simulation allowing accurate dose calculation. During intraoperative radiotherapy, thermoluminescent dosimeters are placed on the skin at 1 and 3 cm around the spherical applicator. Comparison between simulation results and TLD measurements are performed to confirm the dose prediction at the TLD locations. This study was performed on 10 patients, including 3 who had an intraoperative CT acquisition in order to validate the overall dosimetry evaluation protocol.
Results: Patient results show good agreement between clinical experiments and simulations.
Indeed the relative mean deviation between TLD dose measurements and GATE dose scoring is 0.09% ± 0.11% with a maximum of 0.334% and less than 1% of dose estimation uncertainty (min 0.41% max 0.95%).
Conclusion: We propose the use of an accurate model of the Intrabeam system on the GATE platform based on Geant4 MC toolkit. The dosimetric evaluation of the proposed platform with patient datasets supports its use for patient specific dosimetry planning.

INSERM :
Bouzid D, Boussion N, Dupré Pierre-François, Bert J, Pradier O, Visvikis D:Personalized 3D dose prediction for Intrabeam™ treatments based on patient CT imaging with Monte Carlo GATE simulations.. 7th Intrabeam User meeting, 2013,,0-0,C,A,GB.]


BibTex :
@inproceedings{LaTIM-1750
author = {Bouzid D AND Boussion N AND Dupré Pierre-François AND Bert J AND Pradier O AND Visvikis D}
title = {Personalized 3D dose prediction for Intrabeam™ treatments based on patient CT imaging with Monte Carlo GATE simulations}
booktitle = {7th Intrabeam User meeting}
year = {2013}
}

Last Updated on Wednesday, 04 February 2009 12:36