An analytical formulation underpinning the precipitous drop and asymptotic values observed in measured virtual or dynamic filter transmission factors as they fall with segmentation widths of the photon beam modulating collimator

摘要

When a shielding jaw or multiple leaf collimator (MLC) traverses across an X-ray field, it modulates the field photon intensity, thereby inducing dose distribution patterns in cross-beam profiles usually termed dynamic (DW) or virtual wedges (VW), or virtual filter for intensity modulated radiation treatment (IMRT). Measured virtual filtration or transmission factors have, unlike those of conventional metals, exhibited rapid drops with modulated field sizes and at times, shown a discontinuity in the transmission when the stepping segmental width is altered amid modulation. We formulated a generalized analytical virtual transmission factor VTF/sub /spl Delta// for a modulated photon beam irrespective of the accelerator (Varian, Siemens, Philips-Elekta) schemes of modulation. WTF/sub /spl Delta// equals a time integral of TR/sub p/(t) plus GR/sub s/(t), and respectively, are the filter modulation primary fraction and the scatter gradient. The modulation duration t or equivalently, is the accumulating counts of partial monitor units (MU). When tested against actual segmental treatment tables (SST Varian), the stated virtual transmission equation reproduced acceptably the measured (DW) factors and predicted their downward trends in the 6 MV photon beams with 60/spl deg/ and 45/spl deg/ DW filters. Further, it is shown that upon taking the primary fraction as the integrated MU-step function /spl delta/, and taking the number (n) of the modulating collimator steps to infinity n/spl rarr//spl infin/, one has the analytical virtual transmission approach the asymptotic value limit VTF/sub /spl Delta//(n/spl rarr//spl infin/)= 1/2 . This corollary theorem is shown supported by (Varian DW) virtual transmission factors as they taper to 0.48 and 0.51 experimental values.