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Main Authors: Vanreusel, Verdi, Brown, Stephen, Ali, Shujat, De Kerf, Thomas, Doemer, Anthony J., Leblans, Paul, Movsas, Benjamin, Nusrat, Humza, Shirmard, Behzad, Thind, Kundan, Vanlanduit, Steve, Verellen, Dirk, Gasparini, Alessia, Nascimento, Luana de Freitas
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.15824
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author Vanreusel, Verdi
Brown, Stephen
Ali, Shujat
De Kerf, Thomas
Doemer, Anthony J.
Leblans, Paul
Movsas, Benjamin
Nusrat, Humza
Shirmard, Behzad
Thind, Kundan
Vanlanduit, Steve
Verellen, Dirk
Gasparini, Alessia
Nascimento, Luana de Freitas
author_facet Vanreusel, Verdi
Brown, Stephen
Ali, Shujat
De Kerf, Thomas
Doemer, Anthony J.
Leblans, Paul
Movsas, Benjamin
Nusrat, Humza
Shirmard, Behzad
Thind, Kundan
Vanlanduit, Steve
Verellen, Dirk
Gasparini, Alessia
Nascimento, Luana de Freitas
contents The increasing interest in FLASH-RT has lead to the conversion of linear accelerators to enable ultra-high dose rate (UHDR) beams for preclinical research. Dosimetry hereof remains challenging with several crucial aspects missing. This work shows the challenges for real-time 2D UHDR dosimetry, and aims to present a solution in the context of preclinical irradiations in non-homogeneous UHDR electron beams. An experimental camera-scintillation sheet combination, was used to investigate the spatial dose distribution of a converted UHDR Varian Trilogy. The dosimetric system was characterized by variation of the number of pulses and source to surface distance (SSD) and its application was investigated by variation of bolus thickness and ambient light intensity. The challenges of prelcinical real time 2D dosimetry with scintillating coatings were assessed by ex vivo irradiations of a rat brain, mouse hindlimb and whole body mouse. Radiochromic EBT XD film was used as passive reference dosimeter. The coating showed a linear response with the number of pulses in the absence and presence of transparent bolus, up to 3 cm thick, and with the inverse squared SSD. The presence of ambient light reduces the signal-background ratio. The sheet showed to have sufficient flexibility to be molded on the subjects' surface, following its curvatures. Linearity with number of pulses was preserved in a preclinical setting. For small field sizes the light output became too low, resulting in noisy dose maps. The system showed robust within 5% for camera set up differences. Calibration of the system was complicated due to set up variations and the inhomogeneity of the beam. We showed the need for 2D real-time dosimetry to determine beam characteristics in non-homogeneous UHDR beams using a preclinical setting. We presented one solution to meet this need with scintillating based dosimetry.
format Preprint
id arxiv_https___arxiv_org_abs_2504_15824
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Characterization and ex vivo application of flexible 2D scintillating coatings in ultra-high dose rate electron beams for FLASH radiotherapy
Vanreusel, Verdi
Brown, Stephen
Ali, Shujat
De Kerf, Thomas
Doemer, Anthony J.
Leblans, Paul
Movsas, Benjamin
Nusrat, Humza
Shirmard, Behzad
Thind, Kundan
Vanlanduit, Steve
Verellen, Dirk
Gasparini, Alessia
Nascimento, Luana de Freitas
Medical Physics
The increasing interest in FLASH-RT has lead to the conversion of linear accelerators to enable ultra-high dose rate (UHDR) beams for preclinical research. Dosimetry hereof remains challenging with several crucial aspects missing. This work shows the challenges for real-time 2D UHDR dosimetry, and aims to present a solution in the context of preclinical irradiations in non-homogeneous UHDR electron beams. An experimental camera-scintillation sheet combination, was used to investigate the spatial dose distribution of a converted UHDR Varian Trilogy. The dosimetric system was characterized by variation of the number of pulses and source to surface distance (SSD) and its application was investigated by variation of bolus thickness and ambient light intensity. The challenges of prelcinical real time 2D dosimetry with scintillating coatings were assessed by ex vivo irradiations of a rat brain, mouse hindlimb and whole body mouse. Radiochromic EBT XD film was used as passive reference dosimeter. The coating showed a linear response with the number of pulses in the absence and presence of transparent bolus, up to 3 cm thick, and with the inverse squared SSD. The presence of ambient light reduces the signal-background ratio. The sheet showed to have sufficient flexibility to be molded on the subjects' surface, following its curvatures. Linearity with number of pulses was preserved in a preclinical setting. For small field sizes the light output became too low, resulting in noisy dose maps. The system showed robust within 5% for camera set up differences. Calibration of the system was complicated due to set up variations and the inhomogeneity of the beam. We showed the need for 2D real-time dosimetry to determine beam characteristics in non-homogeneous UHDR beams using a preclinical setting. We presented one solution to meet this need with scintillating based dosimetry.
title Characterization and ex vivo application of flexible 2D scintillating coatings in ultra-high dose rate electron beams for FLASH radiotherapy
topic Medical Physics
url https://arxiv.org/abs/2504.15824