Program Information
The Effects of Patient Anatomy and Parallel Magnetic Fields On Beamlet Dose Distributions
A Keyvanloo, B Warkentin, BG Fallone, GC Field*, Cross Cancer Institute, Edmonton, AB
SU-E-T-469 Sunday 3:00:00 PM - 6:00:00 PM Room: Exhibit HallPurpose: Beamlets are generated in a patient geometry in the presence of a magnetic field to investigate the effects of tissue density and magnetic field on beamlet dose distributions, which is important for the optimization of photon fluence to be delivered by a linac-MR system.
Methods: 50x50 mm² fields were placed with isocenter in the middle of a patient's right lung. Each treatment field was decomposed into 100 beamlets (each 5x5 mm²). BEAMnrc scored the particle phase space at 100.2 cm from the source in the linac-MR geometry (isocentre at 126 cm) with parallel magnetic fields of 0, 0.56, and 3T. DOSXYZnrc was modified to score the energy deposited by particles from this phase space as a function of the beamlet the particle passed through. The calculation volume of 70x46x64 voxels encompassed the patient with a voxel size of 3x3x3 mm³. Each beamlet was normalized to the dose calculated to a 3x3x3 mm³ voxel with isocenter at 5cm depth in a flat water tank without a magnetic field.
Results: Beamlet files were calculated on Western Canada's high performance computing cluster (Westgrid) using 100 processors, enabling simulation of 10? histories in less than 3 hours. The resulting files, which contained 3D dose distributions for all 100 beamlets, were 81 MB per field. The Monte Carlo uncertainty was also stored. The gyroradii for 1 MeV electron traversing field lines at 20 degrees are 2.9mm and 0.5mm for 0.56 and 3T fields respectively. The 0.56T parallel magnetic field has a small effect compared to the distortion of the beamlet introduced by the presence of lung.
Conclusions: The effect of tissue heterogeneities is more significant than the effect of a 0.56T parallel magnetic field. A 3T field refocuses the dose in lung to the beamlet path and significantly reduces the lateral electron scatter.
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