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Liver-ultrasound-guided lung tumour tracking for scanned proton therapy: a feasibility study
Krieger, M., Giger, A., Jud, C., Duetschler, A., Salomir, R., Bieri, O., … Zhang, Y. (2021). Liver-ultrasound-guided lung tumour tracking for scanned proton therapy: a feasibility study. Physics in Medicine and Biology, 66(3), 035011 (14 pp.). https://doi.org/10.1088/1361-6560/abcde6
Commissioning of a clinical pencil beam scanning proton therapy unit for ultra-high dose rates (FLASH)
Nesteruk, K. P., Togno, M., Grossmann, M., Lomax, A. J., Weber, D. C., Schippers, J. M., … Psoroulas, S. (2021). Commissioning of a clinical pencil beam scanning proton therapy unit for ultra-high dose rates (FLASH). Medical Physics. https://doi.org/10.1002/mp.14933
Flash irradiation with proton beams: Beam characteristics and their implications for beam diagnostics
Nesteruk, K. P., & Psoroulas, S. (2021). Flash irradiation with proton beams: Beam characteristics and their implications for beam diagnostics. Applied Sciences, 11(5), 2170 (11 pp.). https://doi.org/10.3390/app11052170
Liver-ultrasound based motion modelling to estimate 4D dose distributions for lung tumours in scanned proton therapy
Giger, A., Krieger, M., Jud, C., Duetschler, A., Salomir, R., Bieri, O., … Cattin, P. C. (2020). Liver-ultrasound based motion modelling to estimate 4D dose distributions for lung tumours in scanned proton therapy. Physics in Medicine and Biology, 65(23), 235050 (12 pp.). https://doi.org/10.1088/1361-6560/abaa26
Prognostic impact of the "Sekhar grading system for cranial chordomas" in patients treated with pencil beam scanning proton therapy: an institutional analysis
Hottinger, A. L., Bojaxhiu, B., Ahlhelm, F., Walser, M., Bachtiary, B., Zepter, S., … Weber, D. C. (2020). Prognostic impact of the "Sekhar grading system for cranial chordomas" in patients treated with pencil beam scanning proton therapy: an institutional analysis. Radiation Oncology, 15(1), 96 (8 pp.). https://doi.org/10.1186/s13014-020-01547-x
Impact of internal target volume definition for pencil beam scanned proton treatment planning in the presence of respiratory motion variability for lung cancer: a proof of concept
Krieger, M., Giger, A., Salomir, R., Bieri, O., Celicanin, Z., Cattin, P. C., … Zhang, Y. (2020). Impact of internal target volume definition for pencil beam scanned proton treatment planning in the presence of respiratory motion variability for lung cancer: a proof of concept. Radiotherapy and Oncology, 145, 154-161. https://doi.org/10.1016/j.radonc.2019.12.001
Outcomes of adolescents and young adults treated for brain and skull base tumors with pencil beam scanning proton therapy
Lim, P. S., Tran, S., Kroeze, S. G. C., Pica, A., Hrbacek, J., Bachtiary, B., … Weber, D. C. (2020). Outcomes of adolescents and young adults treated for brain and skull base tumors with pencil beam scanning proton therapy. Pediatric Blood & Cancer, 67(12), e28664 (10 pp.). https://doi.org/10.1002/pbc.28664
Pencil beam scanning proton therapy for paediatric neuroblastoma with motion mitigation strategy for moving target volumes
Lim, P. S., Pica, A., Hrbacek, J., Bachtiary, B., Walser, M., Lomax, A. J., & Weber, D. C. (2020). Pencil beam scanning proton therapy for paediatric neuroblastoma with motion mitigation strategy for moving target volumes. Clinical Oncology, 32(7), 467-476. https://doi.org/10.1016/j.clon.2020.02.002
Clinical outcomes of head and neck adenoid cystic carcinoma patients treated with pencil beam-scanning proton therapy
Pelak, M. J., Walser, M., Bachtiary, B., Hrbacek, J., Lomax, A. J., Kliebsch, U. L., … Weber, D. C. (2020). Clinical outcomes of head and neck adenoid cystic carcinoma patients treated with pencil beam-scanning proton therapy. Oral Oncology, 107, 104752 (6 pp.). https://doi.org/10.1016/j.oraloncology.2020.104752
Clinical outcomes and quality of life in children and adolescents with primary brain tumors treated with pencil beam scanning proton therapy
Tran, S., Lim, P. S., Bojaxhiu, B., Teske, C., Baust, K., Zepter, S., … Weber, D. C. (2020). Clinical outcomes and quality of life in children and adolescents with primary brain tumors treated with pencil beam scanning proton therapy. Pediatric Blood & Cancer, 67(12), e28465 (12 pp.). https://doi.org/10.1002/pbc.28465
Shortening delivery times for intensity-modulated proton therapy by reducing the number of proton spots: An experimental verification
Van De Water, S., Belosi, M. F., Albertini, F., Winterhalter, C., Weber, D. C., & Lomax, A. J. (2020). Shortening delivery times for intensity-modulated proton therapy by reducing the number of proton spots: An experimental verification. Physics in Medicine and Biology, 65(9), 095008 (14 pp.). https://doi.org/10.1088/1361-6560/ab7e7c
Dynamic beam current control for improved dose accuracy in PBS proton therapy
Bula, C., Belosi, M. F., Eichin, M., Hrbacek, J., & Meer, D. (2019). Dynamic beam current control for improved dose accuracy in PBS proton therapy. Physics in Medicine and Biology, 64(17), 175003 (14 pp.). https://doi.org/10.1088/1361-6560/ab3317
4DMRI-based investigation on the interplay effect for pencil beam scanning proton therapy of pancreatic cancer patients
Dolde, K., Zhang, Y., Chaudhri, N., Dávid, C., Kachelrieß, M., Lomax, A. J., … Pfaffenberger, A. (2019). 4DMRI-based investigation on the interplay effect for pencil beam scanning proton therapy of pancreatic cancer patients. Radiation Oncology, 14(1), 30 (13 pp.). https://doi.org/10.1186/s13014-019-1231-2
Comparing the effectiveness and efficiency of various gating approaches for PBS proton therapy of pancreatic cancer using 4D-MRI datasets
Dolde, K., Naumann, P., Dávid, C., Kachelriess, M., Lomax, A. J., Weber, D. C., … Zhang, Y. (2019). Comparing the effectiveness and efficiency of various gating approaches for PBS proton therapy of pancreatic cancer using 4D-MRI datasets. Physics in Medicine and Biology, 64(8), 085011 (11 pp.). https://doi.org/10.1088/1361-6560/ab1175
The dependence of interplay effects on the field scan direction in PBS proton therapy
Fattori, G., Klimpki, G., Hrbacek, J., Zhang, Y., Krieger, M., Placidi, L., … Safai, S. (2019). The dependence of interplay effects on the field scan direction in PBS proton therapy. Physics in Medicine and Biology, 64(9), 095005 (12 pp.). https://doi.org/10.1088/1361-6560/ab1150
Contour scanning, multi-leaf collimation and the combination thereof for proton pencil beam scanning
Winterhalter, C., Meier, G., Oxley, D., Weber, D. C., Lomax, A. J., & Safai, S. (2019). Contour scanning, multi-leaf collimation and the combination thereof for proton pencil beam scanning. Physics in Medicine and Biology, 64(1), 015002 (15 pp.). https://doi.org/10.1088/1361-6560/aaf2e8
Evaluation of the ray-casting analytical algorithm for pencil beam scanning proton therapy
Winterhalter, C., Zepter, S., Shim, S., Meier, G., Bolsi, A., Fredh, A., … Safai, S. (2019). Evaluation of the ray-casting analytical algorithm for pencil beam scanning proton therapy. Physics in Medicine and Biology, 64(6), 065021 (15 pp.). https://doi.org/10.1088/1361-6560/aafe58
Log file based Monte Carlo calculations for proton pencil beam scanning therapy
Winterhalter, C., Meier, G., Oxley, D., Weber, D. C., Lomax, A. J., & Safai, S. (2019). Log file based Monte Carlo calculations for proton pencil beam scanning therapy. Physics in Medicine and Biology, 64(3), 035014 (9 pp.). https://doi.org/10.1088/1361-6560/aaf82d
The impact of pencil beam scanning techniques on the effectiveness and efficiency of rescanning moving targets
Klimpki, G., Zhang, Y., Fattori, G., Psoroulas, S., Weber, D. C., Lomax, A., & Meer, D. (2018). The impact of pencil beam scanning techniques on the effectiveness and efficiency of rescanning moving targets. Physics in Medicine and Biology, 63(14), 145006 (13 pp.). https://doi.org/10.1088/1361-6560/aacd27
Experimental validation of a deforming grid 4D dose calculation for PBS proton therapy
Krieger, M., Klimpki, G., Fattori, G., Hrbacek, J., Oxley, D., Safai, S., … Zhang, Y. (2018). Experimental validation of a deforming grid 4D dose calculation for PBS proton therapy. Physics in Medicine and Biology, 63(5), 055005 (11 pp.). https://doi.org/10.1088/1361-6560/aaad1e