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Autori principali: Vanreusel, Verdi, Gasparini, Alessia, Galante, Federica, Mariani, Giulia, Pacitti, Matteo, Colijn, Arnaud, Reniers, Brigitte, Yalvac, Burak, Vandenbroucke, Dirk, Peeters, Marc, Leblans, Paul, Felici, Giuseppe, Verellen, Dirk, Nascimento, Luana de Freitas
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2308.05465
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author Vanreusel, Verdi
Gasparini, Alessia
Galante, Federica
Mariani, Giulia
Pacitti, Matteo
Colijn, Arnaud
Reniers, Brigitte
Yalvac, Burak
Vandenbroucke, Dirk
Peeters, Marc
Leblans, Paul
Felici, Giuseppe
Verellen, Dirk
Nascimento, Luana de Freitas
author_facet Vanreusel, Verdi
Gasparini, Alessia
Galante, Federica
Mariani, Giulia
Pacitti, Matteo
Colijn, Arnaud
Reniers, Brigitte
Yalvac, Burak
Vandenbroucke, Dirk
Peeters, Marc
Leblans, Paul
Felici, Giuseppe
Verellen, Dirk
Nascimento, Luana de Freitas
contents Radiotherapy is part of the treatment of over 50% of cancer patients. Its efficacy is limited by the radiotoxicity to the healthy tissue. FLASH-RT is based on the biological effect that ultra-high dose rates (UHDR) and very short treatment times strongly reduce normal tissue toxicity, while preserving the anti-tumoral effect. Despite many positive preclinical results, the translation of FLASH-RT to the clinic is hampered by the lack of accurate dosimetry for UHDR beams. To date radiochromic film is commonly used for dose assessment but has the drawback of lengthy and cumbersome read out procedures. In this work, we investigate the equivalence of a 2D OSL system to radiochromic film dosimetry in terms of dose rate independency. The comparison of both systems was done using the ElectronFlash linac. We investigated the dose rate dependence by variation of the 1) modality, 2) pulse repetition frequency, 3) pulse length and 4) source to surface distance. Additionally, we compared the 2D characteristics by field size measurements. The OSL calibration showed transferable between conventional and UHDR modality. Both systems are equally independent of average dose rate, pulse length and instantaneous dose rate. The OSL system showed equivalent in field size determination within 3 sigma. We show the promising nature of the 2D OSL system to serve as alternative for radiochromic film in UHDR electron beams. However, more in depth characterization is needed to assess its full potential.
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institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Optically stimulated luminescence system as an alternative for radiochromic film for 2D reference dosimetry in UHDR electron beams
Vanreusel, Verdi
Gasparini, Alessia
Galante, Federica
Mariani, Giulia
Pacitti, Matteo
Colijn, Arnaud
Reniers, Brigitte
Yalvac, Burak
Vandenbroucke, Dirk
Peeters, Marc
Leblans, Paul
Felici, Giuseppe
Verellen, Dirk
Nascimento, Luana de Freitas
Medical Physics
Radiotherapy is part of the treatment of over 50% of cancer patients. Its efficacy is limited by the radiotoxicity to the healthy tissue. FLASH-RT is based on the biological effect that ultra-high dose rates (UHDR) and very short treatment times strongly reduce normal tissue toxicity, while preserving the anti-tumoral effect. Despite many positive preclinical results, the translation of FLASH-RT to the clinic is hampered by the lack of accurate dosimetry for UHDR beams. To date radiochromic film is commonly used for dose assessment but has the drawback of lengthy and cumbersome read out procedures. In this work, we investigate the equivalence of a 2D OSL system to radiochromic film dosimetry in terms of dose rate independency. The comparison of both systems was done using the ElectronFlash linac. We investigated the dose rate dependence by variation of the 1) modality, 2) pulse repetition frequency, 3) pulse length and 4) source to surface distance. Additionally, we compared the 2D characteristics by field size measurements. The OSL calibration showed transferable between conventional and UHDR modality. Both systems are equally independent of average dose rate, pulse length and instantaneous dose rate. The OSL system showed equivalent in field size determination within 3 sigma. We show the promising nature of the 2D OSL system to serve as alternative for radiochromic film in UHDR electron beams. However, more in depth characterization is needed to assess its full potential.
title Optically stimulated luminescence system as an alternative for radiochromic film for 2D reference dosimetry in UHDR electron beams
topic Medical Physics
url https://arxiv.org/abs/2308.05465