磁共振引导直线加速器的剂量学和几何端到端精度
Dosimetric and geometric end-to-end accuracy of a magnetic resonance guided linear accelerator.
作者信息
Stark Luisa S, Andratschke Nicolaus, Baumgartl Michael, Bogowicz Marta, Chamberlain Madalyne, Dal Bello Riccardo, Ehrbar Stefanie, Girbau Garcia Zaira, Guckenberger Matthias, Krayenbühl Jérôme, Pouymayou Bertrand, Rudolf Thomas, Vuong Diem, Wilke Lotte, Zamburlini Mariangela, Tanadini-Lang Stephanie
机构信息
University Hospital Zürich, Department of Radiation Oncology, Zurich, Switzerland.
出版信息
Phys Imaging Radiat Oncol. 2020 Nov 8;16:109-112. doi: 10.1016/j.phro.2020.09.013. eCollection 2020 Oct.
The introduction of real-time imaging by magnetic resonance guided linear accelerators (MR-Linacs) enabled adaptive treatments and gating on the tumor position. Different end-to-end tests monitored the accuracy of our MR-Linac during the first year of clinical operation. We report on the stability of these tests covering a static, adaptive and gating workflow. Film measurements showed gamma passing rates of 96.4% ± 3.4% for the static tests (five measurements) and for the two adaptive tests 98.9% and 99.99%, respectively (criterion 2%/2mm). The gated point dose measurements in the breathing phantom were 2.7% lower than in the static phantom.
磁共振引导直线加速器(MR-Linacs)引入的实时成像技术实现了适应性治疗以及基于肿瘤位置的门控技术。在临床运行的第一年,通过不同的端到端测试监测了我们的MR-Linac的准确性。我们报告了涵盖静态、适应性和门控工作流程的这些测试的稳定性。胶片测量显示,静态测试(五次测量)的伽马通过率为96.4%±3.4%,两次适应性测试的伽马通过率分别为98.9%和99.99%(标准为2%/2毫米)。呼吸体模中的门控点剂量测量值比静态体模中的低2.7%。
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