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A pencil‐beam photon dose algorithm for stereotactic radiosurgery using a miniature multileaf collimator
Author(s) -
Dong Lei,
Shiu Almon,
Tung Samuel,
Hogstrom Kenneth
Publication year - 1998
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1118/1.598294
Subject(s) - multileaf collimator , radiosurgery , dosimetry , collimator , pencil (optics) , nuclear medicine , linear particle accelerator , optics , medical physics , physics , photon , monte carlo method , beam (structure) , medicine , radiation therapy , radiology , mathematics , statistics
A computer‐controlled miniature multileaf collimator (MMLC) with 4 mm leaf width and a maximum field size of 6   cm × 6   cm has been designed as a tertiary beam‐shaping device for linac‐based stereotactic radiosurgery. The purpose of this study is to develop an accurate and efficient dose calculation model for use with the MMLC. A pencil‐beam based algorithm using a sum of three Gaussian kernels was developed to model the off‐axis ratio of MMLC fields. Because the kernel integration over a rectangular field can be solved in closed form, dose to any point from an arbitrary MMLC field can be calculated efficiently by summing dose contribution from a set of rectangular apertures and transmission blocks that model individual leaf openings or leaf transmissions. The model uses an effective rectangular field and equivalent square method for determination of depth dose and dose output. Results showed that the calculated percentage depth dose was within 1% and output factor was within 1.5% of measured data. The parameters of the pencil beam kernels were extracted by fitting measured off‐axis profiles for a few field sizes at a few depths. The accuracy of the calculated off‐axis ratio was tested by comparison with measured data for a number of MMLC fields. The algorithm was shown to be accurate to within 1.5% or 1 mm for off‐axis ratios. The algorithm computes at a speed of 34 600 data points per second on a DEC Alpha server model 2000/433 (Digital Equipment Corp., Maynard, MA), which is about 15 times faster than a Clarkson‐type summation method.

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