Dosimetric impact of iodine content in a polyvinyl alcohol-iodide radiochromic gel dosimeter

Recently, we developed a radiochromic gel dosimeter based on a polyvinyl alcohol-iodide (PVA-I) complexes that can be reused after annealing. Although, the dosimeter is composed of water mostly, iodine was partially added. In the present study, the dosimeteric impact of iodine content in a PVA-I gel...

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Published inRadiation measurements Vol. 135; p. 106340
Main Authors Ono, Kaoru, Fujino, Keisuke, Hayashi, Shin-ichiro, Akagi, Yukio, Hirokawa, Yutaka
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2020
Subjects
Flatbed scanner
Gel dosimeter
PDD
PVA-I
Radiochromic
PVA-I
PDD
Gel dosimeter
Radiochromic
Flatbed scanner
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Abstract Recently, we developed a radiochromic gel dosimeter based on a polyvinyl alcohol-iodide (PVA-I) complexes that can be reused after annealing. Although, the dosimeter is composed of water mostly, iodine was partially added. In the present study, the dosimeteric impact of iodine content in a PVA-I gel dosimeter was investigated through percentage depth dose (PDD) measurements using a flatbed scanner and Monte Carlo (MC) simulations. In addition, the PDD measurement was repeated 5 times by means of repeated annealing to evaluate repeatability of the dosimeter. In the gel dosimetry study, a good agreement was observed between the PDDs measured with the gel dosimeters with various iodine content, which were read out using a flatbed scanner, and the PDDs calculated with MC simulations in the dosimeters. Furthermore, a good repeatability of PDD(10) at 10 cm depth obtained from the repeated PDD measurements with the gel dosimeters was observed with less than 1% of standard deviation regardless of the iodine content. In the MC simulations, a good agreement was observed between the calculated PDDs in the gel dosimeters and the calculated PDDs in water. The photon fluence was significantly decreased as the iodine content was increased in the low-energy region unlike with the high-energy region. These results enabled us to conclude that the dose response with iodine content can be ignored in high-energy X-rays used in the field of radiotherapy. However, it might not be ignored in low-energy X-rays. Therefore, a small iodine content might be desirable for water-equivalent gel dosimeters. •We investigated dosimetric impact of iodine content in a reusable PVA-I gel dosimeter.•PDD measurements and Monte Carlo simulations were performed.•A good agreement was observed between the PDDs in the gel dosimeters and water.•A good repeatability of the gel dosimeter was observed.•The dose response with iodine content can be ignored in high-energy X-rays.
AbstractList Recently, we developed a radiochromic gel dosimeter based on a polyvinyl alcohol-iodide (PVA-I) complexes that can be reused after annealing. Although, the dosimeter is composed of water mostly, iodine was partially added. In the present study, the dosimeteric impact of iodine content in a PVA-I gel dosimeter was investigated through percentage depth dose (PDD) measurements using a flatbed scanner and Monte Carlo (MC) simulations. In addition, the PDD measurement was repeated 5 times by means of repeated annealing to evaluate repeatability of the dosimeter. In the gel dosimetry study, a good agreement was observed between the PDDs measured with the gel dosimeters with various iodine content, which were read out using a flatbed scanner, and the PDDs calculated with MC simulations in the dosimeters. Furthermore, a good repeatability of PDD(10) at 10 cm depth obtained from the repeated PDD measurements with the gel dosimeters was observed with less than 1% of standard deviation regardless of the iodine content. In the MC simulations, a good agreement was observed between the calculated PDDs in the gel dosimeters and the calculated PDDs in water. The photon fluence was significantly decreased as the iodine content was increased in the low-energy region unlike with the high-energy region. These results enabled us to conclude that the dose response with iodine content can be ignored in high-energy X-rays used in the field of radiotherapy. However, it might not be ignored in low-energy X-rays. Therefore, a small iodine content might be desirable for water-equivalent gel dosimeters. •We investigated dosimetric impact of iodine content in a reusable PVA-I gel dosimeter.•PDD measurements and Monte Carlo simulations were performed.•A good agreement was observed between the PDDs in the gel dosimeters and water.•A good repeatability of the gel dosimeter was observed.•The dose response with iodine content can be ignored in high-energy X-rays.
ArticleNumber 106340
Author Fujino, Keisuke
Hirokawa, Yutaka
Hayashi, Shin-ichiro
Akagi, Yukio
Ono, Kaoru
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CitedBy_id crossref_primary_10_1088_1361_6560_ac279d
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crossref_primary_10_1016_j_radphyschem_2023_111363
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Snippet Recently, we developed a radiochromic gel dosimeter based on a polyvinyl alcohol-iodide (PVA-I) complexes that can be reused after annealing. Although, the...
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elsevier
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StartPage 106340
SubjectTerms Flatbed scanner
Gel dosimeter
PDD
PVA-I
Radiochromic
Title Dosimetric impact of iodine content in a polyvinyl alcohol-iodide radiochromic gel dosimeter
URI https://dx.doi.org/10.1016/j.radmeas.2020.106340
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