用于超高剂量率电子束传输的改进型临床直线加速器的特性分析

Umberto Deut, Aurora Camperi, Cristiano Cavicchi, Roberto Cirio, Emanuele Data, Elisabetta Durisi, Veronica Ferrero, Arianna Ferro, Simona Giordanengo, Oscar A. Martì Villarreal, Felix Mas Milian, Elisabetta Medina, Diango M. Montalvan Olivares, Franco Mostardi, Valeria Monti, Roberto Sacchi, Edoardo Salmeri, Anna Vignati
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引用次数: 0

摘要

超高剂量率(UHDR)辐照的单次剂量超过40 Gy/s,持续时间小于200 ms,其抗肿瘤效果与传统放射治疗相当,对正常组织的伤害更小。这项工作详细介绍了为使用 Elekta SL 18 MV 直线加速器传输 10 MeV 超高分辨电子束而进行的硬件和软件修改,以及所获得的电子束特性。GafChromic EBT XD薄膜和AdvancedMarkus腔室用于剂量测定,而硅传感器则用于评估机器的射束脉冲稳定性和可重复性。在四种实验设置下评估了每个脉冲的剂量、平均剂量率和脉冲中的瞬时剂量率,改变了源到表面的间距和光束准直度,即使用和不使用圆柱形涂抹器。结果显示,每个脉冲的剂量从 0.6 Gy 到几十 Gy 不等,平均剂量率高达 300 Gy/s。获得的结果证明了在升级后的 LINAC 上进行体外放射生物学实验和测试光束监测与剂量测定新技术的可能性,从而为电子超高剂量研究领域做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of a modified clinical linear accelerator for ultra-high dose rate electron beam delivery
Irradiations at Ultra High Dose Rate (UHDR) regimes, exceeding 40 Gy/s in single fractions lasting less than 200 ms, have shown an equivalent antitumor effect compared to conventional radio-therapy with reduced harm to normal tissues. This work details the hardware and software modi-fications implemented to deliver 10 MeV UHDR electron beams with a Linear Accelerator Elekta SL 18 MV and the beam characteristics obtained. GafChromic EBT XD films and an Advanced Markus chamber were used for the dosimetry characterization, while a silicon sensor assessed the machine's beam pulses stability and repeatability. Dose per pulse, average dose rate and instantaneous dose rate in the pulse were evaluated for four experimental settings, varying the source-to-surface dis-tance and the beam collimation, i.e. with and without the use of a cylindrical applicator. Results showed dose per pulse from 0.6 Gy to a few tens of Gy and average dose rate up to 300 Gy/s. The obtained results demonstrate the possibility to perform in-vitro radiobiology experiments and test of new technologies for beam monitoring and dosimetry at the upgraded LINAC, thus contributing to the electron UHDR research field.
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