Model selection for radiochromic film dosimetry
The purpose of this study was to find the most accurate model for radiochromic film dosimetry by comparing different channel independent perturbation models. A model selection approach based on (algorithmic) information theory was followed, and the results were validated using gamma-index analysis o...
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| Published in | Physics in medicine & biology Vol. 60; no. 10; pp. 4089 - 4104 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
England
IOP Publishing
21.05.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0031-9155 1361-6560 |
| DOI | 10.1088/0031-9155/60/10/4089 |
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| Abstract | The purpose of this study was to find the most accurate model for radiochromic film dosimetry by comparing different channel independent perturbation models. A model selection approach based on (algorithmic) information theory was followed, and the results were validated using gamma-index analysis on a set of benchmark test cases. Several questions were addressed: (a) whether incorporating the information of the non-irradiated film, by scanning prior to irradiation, improves the results; (b) whether lateral corrections are necessary when using multichannel models; (c) whether multichannel dosimetry produces better results than single-channel dosimetry; (d) which multichannel perturbation model provides more accurate film doses. It was found that scanning prior to irradiation and applying lateral corrections improved the accuracy of the results. For some perturbation models, increasing the number of color channels did not result in more accurate film doses. Employing Truncated Normal perturbations was found to provide better results than using Micke-Mayer perturbation models. Among the models being compared, the triple-channel model with Truncated Normal perturbations, net optical density as the response and subject to the application of lateral corrections was found to be the most accurate model. The scope of this study was circumscribed by the limits under which the models were tested. In this study, the films were irradiated with megavoltage radiotherapy beams, with doses from about 20-600 cGy, entire (8 inch × 10 inch) films were scanned, the functional form of the sensitometric curves was a polynomial and the different lots were calibrated using the plane-based method. |
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| AbstractList | The purpose of this study was to find the most accurate model for radiochromic film dosimetry by comparing different channel independent perturbation models. A model selection approach based on (algorithmic) information theory was followed, and the results were validated using gamma-index analysis on a set of benchmark test cases. Several questions were addressed: (a) whether incorporating the information of the non-irradiated film, by scanning prior to irradiation, improves the results; (b) whether lateral corrections are necessary when using multichannel models; (c) whether multichannel dosimetry produces better results than single-channel dosimetry; (d) which multichannel perturbation model provides more accurate film doses. It was found that scanning prior to irradiation and applying lateral corrections improved the accuracy of the results. For some perturbation models, increasing the number of color channels did not result in more accurate film doses. Employing Truncated Normal perturbations was found to provide better results than using Micke-Mayer perturbation models. Among the models being compared, the triple-channel model with Truncated Normal perturbations, net optical density as the response and subject to the application of lateral corrections was found to be the most accurate model. The scope of this study was circumscribed by the limits under which the models were tested. In this study, the films were irradiated with megavoltage radiotherapy beams, with doses from about 20-600 cGy, entire (8 inch × 10 inch) films were scanned, the functional form of the sensitometric curves was a polynomial and the different lots were calibrated using the plane-based method. |
| Author | Méndez, I |
| Author_xml | – sequence: 1 givenname: I surname: Méndez fullname: Méndez, I email: nmendez@onko-i.si organization: Institute of Oncology Ljubljana Department of Medical Physics, Zaloška cesta 2, Ljubljana 1000, Slovenia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25928128$$D View this record in MEDLINE/PubMed |
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| References | 23 24 25 26 27 Paelinck L (31) 2007; 52 28 29 Martišíková M (22) 2008; 53 Künzler T (16) 2009; 54 30 10 32 11 33 34 13 35 14 36 38 17 19 Burnham K P (5) 2002 Li M (18) 2009 Clasie B M (6) 2012; 57 1 2 3 Fuss M (12) 2007; 52 4 Hutter M (15) 2005 7 Schoenfeld A A (37) 2014; 59 8 9 van Hoof S J (39) 2012; 57 20 21 |
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| SubjectTerms | Algorithms Calibration Color - standards Film Dosimetry - methods Film Dosimetry - standards model selection Models, Theoretical multichannel film dosimetry radiochromic |
| Title | Model selection for radiochromic film dosimetry |
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