1. Feasibility of the J-PET to monitor range of therapeutic proton beams
- Author
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Baran, Jakub, Borys, Damian, Brzeziński, Karol, Gajewski, Jan, Silarski, Michał, Chug, Neha, Coussat, Aurélien, Czerwiński, Eryk, Dadgar, Meysam, Dulski, Kamil, Eliyan, Kavya V., Kacprzak, Aleksander Gajos Krzysztof, Kapłon, Łukasz, Klimaszewski, Konrad, Konieczka, Paweł, Kopeć, Renata, Korcyl, Grzegorz, Kozik, Tomasz, Krzemień, Wojciech, Kumar, Deepak, Lomax, Antony J., McNamara, Keegan, Niedźwiecki, Szymon, Olko, Paweł, Panek, Dominik, Parzych, Szymon, del Rio, Elena Perez, Raczyński, Lech, Simbarashe, Moyo, Sharma, Sushil, Shivani, Shopa, Roman Y., Skóra, Tomasz, Skurzok, Magdalena, Stasica, Paulina, Stępień, Ewa Ł., Tayefi, Keyvan, Tayefi, Faranak, Weber, Damien C., Winterhalter, Carla, Wiślicki, Wojciech, Moskal, Pawel, and Rucinski, Antoni
- Subjects
Physics - Medical Physics - Abstract
Objective: The aim of this work is to investigate the feasibility of the Jagiellonian Positron Emission Tomography (J-PET) scanner for intra-treatment proton beam range monitoring. Approach: The Monte Carlo simulation studies with GATE and PET image reconstruction with CASToR were performed in order to compare six J-PET scanner geometries (three dual-heads and three cylindrical). We simulated proton irradiation of a PMMA phantom with a Single Pencil Beam (SPB) and Spread-Out Bragg Peak (SOBP) of various ranges. The sensitivity and precision of each scanner were calculated, and considering the setup's cost-effectiveness, we indicated potentially optimal geometries for the J-PET scanner prototype dedicated to the proton beam range assessment. Main results: The investigations indicate that the double-layer cylindrical and triple-layer double-head configurations are the most promising for clinical application. We found that the scanner sensitivity is of the order of 10$^{-5}$ coincidences per primary proton, while the precision of the range assessment for both SPB and SOBP irradiation plans was found below 1 mm. Among the scanners with the same number of detector modules, the best results are found for the triple-layer dual-head geometry. Significance: We performed simulation studies demonstrating that the feasibility of the J-PET detector for PET-based proton beam therapy range monitoring is possible with reasonable sensitivity and precision enabling its pre-clinical tests in the clinical proton therapy environment. Considering the sensitivity, precision and cost-effectiveness, the double-layer cylindrical and triple-layer dual-head J-PET geometry configurations seem promising for the future clinical application. Experimental tests are needed to confirm these findings., Comment: 19 pages, 7 pages
- Published
- 2023