Issue Date | Title | Author(s) |
2021-01-01 | Adapting to the motion of multiple independent targets using multileaf collimator tracking for locally advanced prostate cancer: Proof of principle simulation study. | Hewson, EA; Ge, Y; O'Brien, R; Roderick, S; Bell, L; Poulsen, PR; Eade, T; Booth, JT; Keall, PJ; Nguyen, DT |
2021-08 | A review of artificial intelligence applications for motion tracking in radiotherapy. | Mylonas, A; Booth, J; Nguyen, DT |
2021-07 | First experimental evaluation of multi-target multileaf collimator tracking during volumetric modulated arc therapy for locally advanced prostate cancer. | Hewson, EA; Dipuglia, A; Kipritidis, J; Ge, Y; O'Brien, R; Roderick, S; Bell, L; Poulsen, PR; Eade, T; Booth, JT; Keall, PJ; Nguyen, DT |
2021-03-15 | Dose-based optimisation for multi-leaf collimator tracking during radiation therapy. | Mejnertsen, L; Hewson, E; Nguyen, DT; Booth, J; Keall, P |
2021-10-19 | A real-time IGRT method using a Kalman filter framework to extract 3D positions from 2D projections. | Nguyen, DT; Keall, P; Booth, J; Shieh, C-C; Poulsen, P; O'Brien, R |
2021-03-04 | Pre-treatment and real-time image guidance for a fixed-beam radiotherapy system. | Liu, PZY; Gardner, M; Heng, SM; Shieh, C-C; Nguyen, DT; Debrot, E; O'Brien, R; Downes, S; Jackson, M; Keall, PJ |
2020-10-01 | ANOVA_robust: A SAS Macro for Parametric Tests of Mean Differences in One-Factor ANOVA Models | Pham, TV; Kromrey, JD; Chen, Y-H; Kim, ES; Nguyen, DT; Wang, Y |
2018-04-01 | The first clinical implementation of real-time image-guided adaptive radiotherapy using a standard linear accelerator | Keall, PJ; Nguyen, DT; O'Brien, R; Caillet, V; Hewson, E; Poulsen, PR; Bromley, R; Bell, L; Eade, T; Kneebone, A; Martin, J; Booth, JT |
2019-05-21 | A six-degree-of-freedom robotic motion system for quality assurance of real-time image-guided radiotherapy | Alnaghy, S; Kyme, A; Caillet, V; Nguyen, DT; O'Brien, R; Booth, JT; Keall, PJ |
2020-12-01 | First experimental investigation of simultaneously tracking two independently moving targets on an MRI-linac using real-time MRI and MLC tracking. | Liu, PZY; Dong, B; Nguyen, DT; Ge, Y; Hewson, EA; Waddington, DEJ; O'Brien, R; Liney, GP; Keall, PJ |