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Main Authors: Hetzel, Ronja, Urbanevych, Vitalii, Bolke, Andreas, Kasper, Jonas, Kołodziej, Magdalena, Kercz, Monika, Magiera, Andrzej, Mueller, Florian, Müller, Sara, Rafecas, Magdalena, Rusiecka, Katarzyna, Schug, David, Schulz, Volkmar, Stahl, Achim, Weissler, Bjoern, Wong, Ming-Liang, Wrońska, Aleksandra
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2307.01203
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author Hetzel, Ronja
Urbanevych, Vitalii
Bolke, Andreas
Kasper, Jonas
Kołodziej, Magdalena
Kercz, Monika
Magiera, Andrzej
Mueller, Florian
Müller, Sara
Rafecas, Magdalena
Rusiecka, Katarzyna
Schug, David
Schulz, Volkmar
Stahl, Achim
Weissler, Bjoern
Wong, Ming-Liang
Wrońska, Aleksandra
author_facet Hetzel, Ronja
Urbanevych, Vitalii
Bolke, Andreas
Kasper, Jonas
Kołodziej, Magdalena
Kercz, Monika
Magiera, Andrzej
Mueller, Florian
Müller, Sara
Rafecas, Magdalena
Rusiecka, Katarzyna
Schug, David
Schulz, Volkmar
Stahl, Achim
Weissler, Bjoern
Wong, Ming-Liang
Wrońska, Aleksandra
contents Objective. Prompt-gamma imaging encompasses several approaches for online monitoring of beam range or deposited dose distribution in proton therapy. We test one of the imaging techniques - a coded mask approach - both experimentally and via simulations. Approach. Two imaging setups have been investigated experimentally. Each of them comprised a structured tungsten collimator in a form of a MURA mask and a LYSO:Ce scintillation detector of fine granularity. The setups differed in the detector dimensions and the operation mode (1D or 2D imaging). A series of measurements with radioactive sources have been conducted, testing the setups' performance of near-field gamma imaging. Additionally, Monte Carlo simulations of a larger setup of the same type were conducted, investigating its performance with a realistic gamma source distribution occurring during proton therapy. Main results. The images of point-like sources reconstructed from two smallscale prototypes' data using the MLEM algorithm constitute the experimental proof of principle for the near-field coded-mask imaging modality, both in the 1D and the 2D mode. Their precision allowed us to calibrate out certain systematic offsets appearing due to the misalignment of setup elements. The simulation of the full-scale setup yielded a mean distal falloff retrieval precision of 0.72 mm in the studies for beam energy range 89.5-107.9 MeV and with 1x10^8 protons (typical number for single distal spots). The implemented algorithm of image reconstruction is relatively fast - a typical procedure needs several seconds. Significance. Coded-mask imaging appears a valid option for proton therapy monitoring. The results of simulations let us conclude that the proposed fullscale setup is competitive to the knife-edge-shaped and the multiparalell slit cameras investigated by other groups.
format Preprint
id arxiv_https___arxiv_org_abs_2307_01203
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Near-field coded-mask technique and its potential for proton therapy monitoring
Hetzel, Ronja
Urbanevych, Vitalii
Bolke, Andreas
Kasper, Jonas
Kołodziej, Magdalena
Kercz, Monika
Magiera, Andrzej
Mueller, Florian
Müller, Sara
Rafecas, Magdalena
Rusiecka, Katarzyna
Schug, David
Schulz, Volkmar
Stahl, Achim
Weissler, Bjoern
Wong, Ming-Liang
Wrońska, Aleksandra
Medical Physics
Instrumentation and Detectors
Objective. Prompt-gamma imaging encompasses several approaches for online monitoring of beam range or deposited dose distribution in proton therapy. We test one of the imaging techniques - a coded mask approach - both experimentally and via simulations. Approach. Two imaging setups have been investigated experimentally. Each of them comprised a structured tungsten collimator in a form of a MURA mask and a LYSO:Ce scintillation detector of fine granularity. The setups differed in the detector dimensions and the operation mode (1D or 2D imaging). A series of measurements with radioactive sources have been conducted, testing the setups' performance of near-field gamma imaging. Additionally, Monte Carlo simulations of a larger setup of the same type were conducted, investigating its performance with a realistic gamma source distribution occurring during proton therapy. Main results. The images of point-like sources reconstructed from two smallscale prototypes' data using the MLEM algorithm constitute the experimental proof of principle for the near-field coded-mask imaging modality, both in the 1D and the 2D mode. Their precision allowed us to calibrate out certain systematic offsets appearing due to the misalignment of setup elements. The simulation of the full-scale setup yielded a mean distal falloff retrieval precision of 0.72 mm in the studies for beam energy range 89.5-107.9 MeV and with 1x10^8 protons (typical number for single distal spots). The implemented algorithm of image reconstruction is relatively fast - a typical procedure needs several seconds. Significance. Coded-mask imaging appears a valid option for proton therapy monitoring. The results of simulations let us conclude that the proposed fullscale setup is competitive to the knife-edge-shaped and the multiparalell slit cameras investigated by other groups.
title Near-field coded-mask technique and its potential for proton therapy monitoring
topic Medical Physics
Instrumentation and Detectors
url https://arxiv.org/abs/2307.01203