A commercial amorphous silicon electronic portal imaging device EPID has been studied to investigate its potential in the field of pretreatment verifications of step and shoot, intensity modulated radiation therapy IMRT, 6 MV photon beams. The EPID was calibrated to measure absolute exit dose in a water-equivalent phantom at patient level, following an experimental approach, which does not require sophisticated calculation algorithms. The procedure presented was specifically intended to replace the time-consuming in-phantom film dosimetry. The dosimetric response was characterized on the central axis in terms of stability, linearity, and pulse repetition frequency dependence. The a-Si EPID demonstrated a good linearity with dose within 2% from 1 monitor unit, which represent a prerequisite for the application in IMRT. A series of measurements, in which phantom thickness, air gap between the phantom and the EPID, field size and position of measurement of dose in the phantom entrance or exit varied, was performed to find the optimal calibration conditions, for which the field size dependence is minimized. In these conditions 20 cm phantom thickness, 56 cm air gap, exit dose measured at the isocenter, the introduction of a filter for the low-energy scattered radiation allowed us to define a universal calibration factor, independent of field size. The off-axis extension of the dose calibration was performed by applying a radial correction for the beam profile, distorted due to the standard flood field calibration of the device. For the acquisition of IMRT fields, it was necessary to employ home-made software and a specific procedure. This method was applied for the measurement of the dose distributions for 15 clinical IMRT fields. The agreement between the dose distributions, quantified by the gamma index, was found, on average, in 97.6% and 98.3% of the analyzed points for EPID versus TPS and for EPID versus FILM, respectively, thus suggesting a great potential of this EPID for IMRT dosimetric applications. © 2006 American Association of Physicists in Medicine. DOI: 10.1118/1.2357834
Pretreatment verification of IMRT absolute dose distributions using a commercial a-Si EPID / C.Talamonti; M.Casati; M.Bucciolini. - In: MEDICAL PHYSICS. - ISSN 0094-2405. - STAMPA. - 33:(2006), pp. 4367-4378.
Pretreatment verification of IMRT absolute dose distributions using a commercial a-Si EPID
TALAMONTI, CINZIA;BUCCIOLINI, MARTA
2006
Abstract
A commercial amorphous silicon electronic portal imaging device EPID has been studied to investigate its potential in the field of pretreatment verifications of step and shoot, intensity modulated radiation therapy IMRT, 6 MV photon beams. The EPID was calibrated to measure absolute exit dose in a water-equivalent phantom at patient level, following an experimental approach, which does not require sophisticated calculation algorithms. The procedure presented was specifically intended to replace the time-consuming in-phantom film dosimetry. The dosimetric response was characterized on the central axis in terms of stability, linearity, and pulse repetition frequency dependence. The a-Si EPID demonstrated a good linearity with dose within 2% from 1 monitor unit, which represent a prerequisite for the application in IMRT. A series of measurements, in which phantom thickness, air gap between the phantom and the EPID, field size and position of measurement of dose in the phantom entrance or exit varied, was performed to find the optimal calibration conditions, for which the field size dependence is minimized. In these conditions 20 cm phantom thickness, 56 cm air gap, exit dose measured at the isocenter, the introduction of a filter for the low-energy scattered radiation allowed us to define a universal calibration factor, independent of field size. The off-axis extension of the dose calibration was performed by applying a radial correction for the beam profile, distorted due to the standard flood field calibration of the device. For the acquisition of IMRT fields, it was necessary to employ home-made software and a specific procedure. This method was applied for the measurement of the dose distributions for 15 clinical IMRT fields. The agreement between the dose distributions, quantified by the gamma index, was found, on average, in 97.6% and 98.3% of the analyzed points for EPID versus TPS and for EPID versus FILM, respectively, thus suggesting a great potential of this EPID for IMRT dosimetric applications. © 2006 American Association of Physicists in Medicine. DOI: 10.1118/1.2357834File | Dimensione | Formato | |
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