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Franciosini, G.; Carlotti, D.; Cattani, F.; De Gregorio, A.; De Liso, V.; De Rosa, F.; Di Francesco, M.; Di Martino, F.; Felici, G.; Pensavalle, J. Harold; Leonardi, M.C.; Marafini, M.; Muscato, A.; Paiar, F.; Patera, V.; Poortmans, P.; Sciubba, A.; Schiavi, A.; Toppi, M.; Traini, G.; Trigilio, A.; Sarti, A.
Physica medica, 20/May , Volume: 121Journal Article
Partial breast irradiation for the treatment of early-stage breast cancer patients can be performed by means of Intra Operative electron Radiation Therapy (IOeRT). One of the main limitations of this technique is the absence of a treatment planning system (TPS) that could greatly help in ensuring a proper coverage of the target volume during irradiation. An IOeRT TPS has been developed using a fast Monte Carlo (MC) and an ultrasound imaging system to provide the best irradiation strategy (electron beam energy, applicator position and bevel angle) and to facilitate the optimisation of dose prescription and delivery to the target volume while maximising the organs at risk sparing. The study has been performed in silico, exploiting MC simulations of a breast cancer treatment. Ultrasound-based input has been used to compute the absorbed dose maps in different irradiation strategies and a quantitative comparison between the different options was carried out using Dose Volume Histograms. The system was capable of exploring different beam energies and applicator positions in few minutes, identifying the best strategy with an overall computation time that was found to be completely compatible with clinical implementation. The systematic uncertainty related to tissue deformation during treatment delivery with respect to imaging acquisition was taken into account. The potential and feasibility of a GPU based full MC TPS implementation of IOeRT breast cancer treatments has been demonstrated in-silico. This long awaited tool will greatly improve the treatment safety and efficacy, overcoming the limits identified within the clinical trials carried out so far. •A fast GPU based MC has been developed for IOeRT breast treatment planning.•The input is an ultrasound image with defined PTV and OARs.•Different applicator positions, dimensions and angles and beam energies are tested.•Plan is optimised using absorbed dose maps and related DVHs.•Results in the context of conventional and FLASH irradiations are discussed.
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