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Feasibility of the J-PET to monitor the range of therapeutic proton beams
Baran, J., Borys, D., Brzeziński, K., Gajewski, J., Silarski, M., Chug, N., … Ruciński, A. (2024). Feasibility of the J-PET to monitor the range of therapeutic proton beams. Physica Medica, 118, 103301 (9 pp.). https://doi.org/10.1016/j.ejmp.2024.103301
Uncertainty-aware MR-based CT synthesis for robust proton therapy planning of brain tumour
Li, X., Bellotti, R., Meier, G., Bachtiary, B., Weber, D., Lomax, A., … Zhang, Y. (2024). Uncertainty-aware MR-based CT synthesis for robust proton therapy planning of brain tumour. Radiotherapy and Oncology, 191, 110056 (9 pp.). https://doi.org/10.1016/j.radonc.2023.110056
Detection of range shifts in proton beam therapy using the J-PET scanner: a patient simulation study
Brzeziński, K., Baran, J., Borys, D., Gajewski, J., Chug, N., Coussat, A., … Rucinski, A. (2023). Detection of range shifts in proton beam therapy using the J-PET scanner: a patient simulation study. Physics in Medicine and Biology, 68(14), 145016 (17 pp.). https://doi.org/10.1088/1361-6560/acdd4c
A motion model-guided 4D dose reconstruction for pencil beam scanned proton therapy
Duetschler, A., Huang, L., Fattori, G., Meier, G., Bula, C., Hrbacek, J., … Zhang, Y. (2023). A motion model-guided 4D dose reconstruction for pencil beam scanned proton therapy. Physics in Medicine and Biology, 68(11), 115013 (19 pp.). https://doi.org/10.1088/1361-6560/acd518
Detailed Monte-Carlo characterization of a Faraday cup for proton therapy
Ehwald, J., Togno, M., Lomax, A. J., Weber, D. C., Safai, S., & Winterhalter, C. (2023). Detailed Monte-Carlo characterization of a Faraday cup for proton therapy. Medical Physics, 50(9), 5828-5841. https://doi.org/10.1002/mp.16464
Multi-camera optical tracking and fringe pattern analysis for eye surface profilometry in ocular proton therapy
Via, R., Bryjova, K., Pica, A., Baroni, G., Lomax, A., Weber, D. C., … Hrbacek, J. (2023). Multi-camera optical tracking and fringe pattern analysis for eye surface profilometry in ocular proton therapy. Physics and Imaging in Radiation Oncology, 28, 100517 (7 pp.). https://doi.org/10.1016/j.phro.2023.100517
Early outcome after craniospinal irradiation with pencil beam scanning proton therapy for children, adolescents and young adults with brain tumors
Vázquez, M., Bachmann, N., Pica, A., Bolsi, A., De Angelis, C., Lomax, A. J., & Weber, D. C. (2023). Early outcome after craniospinal irradiation with pencil beam scanning proton therapy for children, adolescents and young adults with brain tumors. Pediatric Blood & Cancer, 70(2), e30087 (8 pp.). https://doi.org/10.1002/pbc.30087
ProTheRaMon - a GATE simulation framework for proton therapy range monitoring using PET imaging
Borys, D., Baran, J., Brzeziński, K., Gajewski, J., Chug, N., Coussat, A., … Rucinski, A. (2022). ProTheRaMon - a GATE simulation framework for proton therapy range monitoring using PET imaging. Physics in Medicine and Biology, 67(22), 224002 (15 pp.). https://doi.org/10.1088/1361-6560/ac944c
Commissioning and quality assurance of a novel solution for respiratory-gated PBS proton therapy based on optical tracking of surface markers
Fattori, G., Hrbacek, J., Regele, H., Bula, C., Mayor, A., Danuser, S., … Safai, S. (2022). Commissioning and quality assurance of a novel solution for respiratory-gated PBS proton therapy based on optical tracking of surface markers. Zeitschrift für Medizinische Physik, 3(1), 52-62. https://doi.org/10.1016/j.zemedi.2020.07.001
GPU accelerated Monte Carlo scoring of positron emitting isotopes produced during proton therapy for PET verification
McNamara, K., Schiavi, A., Borys, D., Brzezinski, K., Gajewski, J., Kopeć, R., … Winterhalter, C. (2022). GPU accelerated Monte Carlo scoring of positron emitting isotopes produced during proton therapy for PET verification. Physics in Medicine and Biology, 67(24), 244001 (14 pp.). https://doi.org/10.1088/1361-6560/aca515
NTCP modelling for high-grade temporal radionecrosis in a large cohort of patients receiving pencil beam scanning proton therapy for skull base and head and neck tumors
Schröder, C., Köthe, A., De Angelis, C., Basler, L., Fattori, G., Safai, S., … Weber, D. C. (2022). NTCP modelling for high-grade temporal radionecrosis in a large cohort of patients receiving pencil beam scanning proton therapy for skull base and head and neck tumors. International Journal of Radiation Oncology Biology Physics, 113(2), 448-455. https://doi.org/10.1016/j.ijrobp.2022.01.047
MRI and FUNDUS image fusion for improved ocular biometry in Ocular Proton Therapy
Via, R., Pica, A., Antonioli, L., Paganelli, C., Fattori, G., Spaccapaniccia, C., … Hrbacek, J. (2022). MRI and FUNDUS image fusion for improved ocular biometry in Ocular Proton Therapy. Radiotherapy and Oncology, 174, 16-22. https://doi.org/10.1016/j.radonc.2022.06.021
An approach for estimating dosimetric uncertainties in deformable dose accumulation in pencil beam scanning proton therapy for lung cancer
Amstutz, F., Nenoff, L., Albertini, F., Ribeiro, C. O., Knopf, A. C., Unkelbach, J., … Zhang, Y. (2021). An approach for estimating dosimetric uncertainties in deformable dose accumulation in pencil beam scanning proton therapy for lung cancer. Physics in Medicine and Biology, 66(10), 105007 (12 pp.). https://doi.org/10.1088/1361-6560/abf8f5
Fast, efficient and flexible particle accelerator optimisation using densely connected and invertible neural networks
Bellotti, R., Boiger, R., & Adelmann, A. (2021). Fast, efficient and flexible particle accelerator optimisation using densely connected and invertible neural networks. Information, 12(9), 351 (21 pp.). https://doi.org/10.3390/INFO12090351
Development and validation of a new set-up simulator dedicated to ocular proton therapy at CNAO
Elisei, G., Pella, A., Ricotti, R., Via, R., Fiore, M. R., Calvi, G., … Baroni, G. (2021). Development and validation of a new set-up simulator dedicated to ocular proton therapy at CNAO. Physica Medica, 82, 228-239. https://doi.org/10.1016/j.ejmp.2021.01.070
Preliminary study of the Intel RealSense D415 camera for monitoring respiratory like motion of an irregular surface
Fielding, A. L., Pandey, A. K., Jonmohamadi, Y., Via, R., Weber, D. C., Lomax, A. J., & Fattori, G. (2021). Preliminary study of the Intel RealSense D415 camera for monitoring respiratory like motion of an irregular surface. IEEE Sensors Journal, 21(13), 14443 (11 pp.). https://doi.org/10.1109/JSEN.2020.2993264
Characterization of the HollandPTC proton therapy beamline dedicated to uveal melanoma treatment and an interinstitutional comparison
Fleury, E., Trnková, P., Spruijt, K., Herault, J., Lebbink, F., Heufelder, J., … Hoogeman, M. (2021). Characterization of the HollandPTC proton therapy beamline dedicated to uveal melanoma treatment and an interinstitutional comparison. Medical Physics, 48(8), 4506-4522. https://doi.org/10.1002/mp.15024
Combining rescanning and gating for a time-efficient treatment of mobile tumors using pencil beam scanning proton therapy
Gut, P., Krieger, M., Lomax, T., Weber, D. C., & Hrbacek, J. (2021). Combining rescanning and gating for a time-efficient treatment of mobile tumors using pencil beam scanning proton therapy. Radiotherapy and Oncology, 160, 82-89. https://doi.org/10.1016/j.radonc.2021.03.041
A prospective study on health-related quality of life and patient-reported outcomes in adult brain tumor patients treated with pencil beam scanning proton therapy
Kroeze, S. G. C., Mackeprang, P. H., De Angelis, C., Pica, A., Bachtiary, B., Kliebsch, U. L., & Weber, D. C. (2021). A prospective study on health-related quality of life and patient-reported outcomes in adult brain tumor patients treated with pencil beam scanning proton therapy. Cancers, 13(19), 4892 (13 pp.). https://doi.org/10.3390/cancers13194892
Pencil beam scanning proton therapy case selection for paediatric abdominal neuroblastoma: effects of tumour location and bowel gas
Lim, P. S., Rompokos, V., Bizzocchi, N., Gillies, C., Gosling, A., Royle, G., … Gains, J. E. (2021). Pencil beam scanning proton therapy case selection for paediatric abdominal neuroblastoma: effects of tumour location and bowel gas. Clinical Oncology, 33(3), e132-e142. https://doi.org/10.1016/j.clon.2020.08.012
 

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