Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/1355
Title: Physical wedge as a tool for radiochromic film calibration
Authors: Pecić, Stevan
Vićić, Miloš 
Belča, Ivan 
Stojadinović, Strahinja
Nidžović, Borko
Kurij, Ljubomir
Dević, Slobodan
Keywords: Calibration;Dose gradients;EBT3;Physical wedge;Radiochromic film dosimetry
Issue Date: 29-Jun-2023
Journal: Zeitschrift fur medizinische Physik
Abstract: 
Reliable calibration is one of the major challenges in using radiochromic films (RCF) for radiation dosimetry. In this study the feasibility of using dose gradients produced by a physical wedge (PW) for RCF calibration was investigated. The aim was to establish an efficient and reproducible method for calibrating RCF using a PW. Film strips were used to capture the wedge dose profile for five different exposures and the acquired scans were processed to generate corresponding net optical density wedge profiles. The proposed method was compared to the benchmark calibration, following the guidelines for precise calibration using uniform dose fields. The results of the benchmark comparison presented in this paper showed that using a single film strip for measuring wedge dose profile is sufficient for estimating a reliable calibration curve within the recorded dose range. Furthermore, the PW calibration can be extrapolated or extended by using multiple gradients for the optimal coverage of the desired calibration dose range. The method outlined in this paper can be readily replicated using the equipment and expertise commonly found in a radiotherapy center. Once the dose profile and central axis attenuation coefficient of the PW are determined, they can serve as a reference for a variety of calibrations using different types and batches of film. This investigation demonstrated that the calibration curves obtained with the presented PW calibration method are within the bounds of the measurement uncertainty evaluated for the conventional uniform dose field calibration method.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/1355
ISSN: 09393889
DOI: 10.1016/j.zemedi.2023.05.008
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