GGEMS-Brachy: GPU GEant4-based Monte Carlo simulation for brachytherapy applications - Archive ouverte HAL
Article Dans Une Revue Physics in Medicine and Biology Année : 2015

GGEMS-Brachy: GPU GEant4-based Monte Carlo simulation for brachytherapy applications

Résumé

In brachytherapy, plans are routinely calculated using the AAPM TG43 formalism which considers the patient as a simple water object. An accurate modeling of the physical processes considering patient heterogeneity using Monte Carlo simulation (MCS) methods is currently too time-consuming and computationally demanding to be routinely used. In this work we implemented and evaluated an accurate and fast MCS on Graphics Processing Units (GPU) for brachytherapy low dose rate (LDR) applications. A previously proposed Geant4 based MCS framework implemented on GPU (GGEMS) was extended to include a hybrid GPU navigator, allowing navigation within voxelized patient specific images and analytically modeled (125)I seeds used in LDR brachytherapy. In addition, dose scoring based on track length estimator including uncertainty calculations was incorporated. The implemented GGEMS-brachy platform was validated using a comparison with Geant4 simulations and reference datasets. Finally, a comparative dosimetry study based on the current clinical standard (TG43) and the proposed platform was performed on twelve prostate cancer patients undergoing LDR brachytherapy. Considering patient 3D CT volumes of 400 × 250 × 65 voxels and an average of 58 implanted seeds, the mean patient dosimetry study run time for a 2% dose uncertainty was 9.35 s (≈500 ms 10(-6) simulated particles) and 2.5 s when using one and four GPUs, respectively. The performance of the proposed GGEMS-brachy platform allows envisaging the use of Monte Carlo simulation based dosimetry studies in brachytherapy compatible with clinical practice. Although the proposed platform was evaluated for prostate cancer, it is equally applicable to other LDR brachytherapy clinical applications. Future extensions will allow its application in high dose rate brachytherapy applications.
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Dates et versions

hal-01888892 , version 1 (05-10-2018)

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Yannick Lemarechal, Julien Bert, Claire Falconnet, Philippe Desprès, Antoine Valeri, et al.. GGEMS-Brachy: GPU GEant4-based Monte Carlo simulation for brachytherapy applications. Physics in Medicine and Biology, 2015, 60 (13), pp.4987 - 5006. ⟨10.1088/0031-9155/60/13/4987⟩. ⟨hal-01888892⟩
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