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Response to "Letter regarding Consensus guide on CT-based prediction of stopping-power ratio using a Hounsfield look-up table for proton therapy"
Peters, N., Taasti, V. T., Ackermann, B., Bolsi, A., Dahlgren, C. V., Ellerbrock, M., … Wohlfahrt, P. (2024). Response to "Letter regarding Consensus guide on CT-based prediction of stopping-power ratio using a Hounsfield look-up table for proton therapy". Radiotherapy and Oncology, 190, 109961 (3 pp.). https://doi.org/10.1016/j.radonc.2023.109961
Clinical practice in European centres treating paediatric posterior fossa tumours with pencil beam scanning proton therapy
Toussaint, L., Matysiak, W., Alapetite, C., Aristu, J., Bannink-Gawryszuk, A., Bolle, S., … Lassen-Ramshad, Y. (2024). Clinical practice in European centres treating paediatric posterior fossa tumours with pencil beam scanning proton therapy. Radiotherapy and Oncology, 198, 110414 (8 pp.). https://doi.org/10.1016/j.radonc.2024.110414
Integration of imaging in clinical protocols of particle therapy
Trnkova, P., Bolsi, A., Knopf, A., & Hoffmann, A. (2024). Integration of imaging in clinical protocols of particle therapy. In C. Paganelli, C. Gianoli, & A. Knopf (Eds.), Biophysical Society–IOP series. Imaging in particle therapy. Current practice and future trends (pp. 13-1-13-16). https://doi.org/10.1088/978-0-7503-5117-1ch13
Patterns of practice of image guided particle therapy for cranio-spinal irradiation: a site specific multi-institutional survey of European Particle Therapy Network
Trnková, P., Dasu, A., Placidi, L., Stock, M., Toma-Dasu, I., Brouwer, C. L., … Bolsi, A. (2024). Patterns of practice of image guided particle therapy for cranio-spinal irradiation: a site specific multi-institutional survey of European Particle Therapy Network. Physica Medica, 123, 103407 (9 pp.). https://doi.org/10.1016/j.ejmp.2024.103407
A bi-directional beam-line energy ramping for efficient patient treatment with scanned proton therapy
Actis, O., Mayor, A., Meer, D., Rechsteiner, U., Bolsi, A., Lomax, A. J., & Weber, D. C. (2023). A bi-directional beam-line energy ramping for efficient patient treatment with scanned proton therapy. Physics in Medicine and Biology, 68(17), 175001 (12 pp.). https://doi.org/10.1088/1361-6560/acebb2
Long term outcome and quality of life of intracranial meningioma patients treated with pencil beam scanning proton therapy
Krcek, R., Leiser, D., García-Marqueta, M., Bolsi, A., & Weber, D. C. (2023). Long term outcome and quality of life of intracranial meningioma patients treated with pencil beam scanning proton therapy. Cancers, 15(12), 3099 (17 pp.). https://doi.org/10.3390/cancers15123099
Consensus guide on CT-based prediction of stopping-power ratio using a Hounsfield look-up table for proton therapy
Peters, N., Trier Taasti, V., Ackermann, B., Bolsi, A., Vallhagen Dahlgren, C., Ellerbrock, M., … Wohlfahrt, P. (2023). Consensus guide on CT-based prediction of stopping-power ratio using a Hounsfield look-up table for proton therapy. Radiotherapy and Oncology, 184, 109675 (7 pp.). https://doi.org/10.1016/j.radonc.2023.109675
A survey of practice patterns for adaptive particle therapy for interfractional changes
Trnkova, P., Zhang, Y., Toshito, T., Heijmen, B., Richter, C., Aznar, M. C., … Bertholet, J. (2023). A survey of practice patterns for adaptive particle therapy for interfractional changes. Physics and Imaging in Radiation Oncology, 26, 100442 (7 pp.). https://doi.org/10.1016/j.phro.2023.100442
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
A survey of practice patterns for real-time intrafractional motion-management in particle therapy
Zhang, Y., Trnkova, P., Toshito, T., Heijmen, B., Richter, C., Aznar, M., … Knopf, A. (2023). A survey of practice patterns for real-time intrafractional motion-management in particle therapy. Physics and Imaging in Radiation Oncology, 26, 100439 (7 pp.). https://doi.org/10.1016/j.phro.2023.100439
Proton-beam treatment planning techniques
Albertini, F., Bolsi, A., & Daartz, J. (2022). Proton-beam treatment planning techniques. In P. Mayles, A. E. Nahum, & J. C. Rosenwald (Eds.), Vol. 2. Handbook of radiotherapy physics. Theory and practice (pp. 769-786).
Influence of radiation dose, photon energy, and reconstruction kernel on Rho/Z analysis in spectral computer tomography: a phantom study
Chatzaraki, V., Bolsi, A., Kubik-Huch, R. A., Schmidt, B., Lomax, A. J., Weber, D. C., … Niemann, T. (2022). Influence of radiation dose, photon energy, and reconstruction kernel on Rho/Z analysis in spectral computer tomography: a phantom study. In Vivo, 36(2), 678-686. https://doi.org/10.21873/invivo.12753
Position sensitive detectors in proton therapy: online monitoring of the beam position
Schaefer, R., Actis, O., Koenig, S., Eichin, M., & Weber, D. (2022). Position sensitive detectors in proton therapy: online monitoring of the beam position. Journal of Instrumentation, 17(10), C10017 (5 pp.). https://doi.org/10.1088/1748-0221/17/10/C10017
Outcomes, prognostic factors and salvage treatment for recurrent chordoma after pencil beam scanning proton therapy at the Paul Scherrer Institute
Beer, J., Kountouri, M., Kole, A. J., Murray, F. R., Leiser, D., Kliebsch, U., … Weber, D. C. (2020). Outcomes, prognostic factors and salvage treatment for recurrent chordoma after pencil beam scanning proton therapy at the Paul Scherrer Institute. Clinical Oncology, 32(8), 537-544. https://doi.org/10.1016/j.clon.2020.03.002
Development and evaluation of a pixel detector system for pencil beam scanning proton therapy
Eichin, M., Actis, O., Grossmann, M., König, S., Mayor, A., & Meer, D. (2019). Development and evaluation of a pixel detector system for pencil beam scanning proton therapy. IEEE Transactions on Nuclear Science, 66(7), 1273-1279. https://doi.org/10.1109/TNS.2019.2918635
Multi-layer ionization chamber for quality assurance and stopping power measurements
Gagnon-Moisan, F., Actis, O., Chowdhuri, Z., Dieterle, M., Eichin, M., Koenig, S., … Weber, D. C. (2018). Multi-layer ionization chamber for quality assurance and stopping power measurements. In Z. A. Liu (Ed.), Springer proceedings in physics: Vol. 213. Proceedings of international conference on technology and instrumentation in particle physics 2017. Volume 2 (pp. 149-153). https://doi.org/10.1007/978-981-13-1316-5_28
Patient positioning verification for proton therapy using proton radiography
Hammi, A., Koenig, S., Weber, D. C., Poppe, B., & Lomax, A. J. (2018). Patient positioning verification for proton therapy using proton radiography. Physics in Medicine and Biology, 63(24), 245009 (13 pp.). https://doi.org/10.1088/1361-6560/aadf79
A comprehensive and efficient daily quality assurance for PBS proton therapy
Actis, O., Meer, D., König, S., Weber, D. C., & Mayor, A. (2017). A comprehensive and efficient daily quality assurance for PBS proton therapy. Physics in Medicine and Biology, 62(5), 1661-1675. https://doi.org/10.1088/1361-6560/aa5131
Measurement of the mass difference between top quark and antiquark in pp collisions at √<em>s</em>=8 TeV
Chatrchyan, S., Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Bergauer, T., … Wickramage, N. (2017). Measurement of the mass difference between top quark and antiquark in pp collisions at √s=8 TeV. Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, 770, 50-71. https://doi.org/10.1016/j.physletb.2017.04.028
Measurement of differential cross sections for the production of a pair of isolated photons in pp collisions at √<em>s</em> = 7 TeV
Chatrchyan, S., Khachatryan, V., Sirunyan, A. M., Tumasyan, A., Adam, W., Bergauer, T., … Woods, N. (2014). Measurement of differential cross sections for the production of a pair of isolated photons in pp collisions at √s = 7 TeV. European Physical Journal C: Particles and Fields, 74(11), 3129 (30 pp.). https://doi.org/10.1140/epjc/s10052-014-3129-3