DNA损伤
质粒
DNA
放射分析
还原(数学)
生物物理学
化学
辐射损伤
水溶液
生物系统
航程(航空)
放射化学
辐射
剂量率
吸收剂量
蒙特卡罗方法
体内
毒性
剂量依赖性
材料科学
闪光灯(摄影)
核医学
清除
辐照
动物模型
辐射剂量
突变
剂量-反应关系
电离辐射
相对生物效应
氧气增强率
作者
Thongchai A M Masilela,J Naoki D-Kondo,Wook‐Geun Shin,Mohammad Rezaee,Jay A. LaVerne,Harald Paganetti,Bruce Faddegon,Jan Schuemann,Jose Asuncion Ramos-Mendez
标识
DOI:10.1088/1361-6560/ae62c6
摘要
Abstract Objective. FLASH radiotherapy (FLASH-RT) delivers radiation at ultra-high dose rates (UHDR) and has been shown to spare normal tissue while maintaining tumor control (FLASH effect). This could be due to a reduction in radiation-induced DNA damage in normal tissue. Consequently, plasmid assays have been proposed as a way to evaluate these potential differences. However, experimental results have been varied. Track-structure Monte Carlo (MC) simulations may offer a way to disentangle these differences. In this work, we propose a MC model of plasmid DNA damage at UHDR using TOPAS-nBio. Approach . The radiolysis of plasmids (pUC19, 50 μ g ml −1 ) in an oxygenated (21%) aqueous solution containing DMSO (0.01–100 mM) were modeled in-silico using TOPAS-nBio. 100 Gy was deposited in the solution by 225 kVp x-rays, delivered in a single pulse at conventional (CONV) dose rates (0.1 Gy s −1 ) or UHDR (2 × 10 7 Gy s −1 ). Two models were evaluated, model 1 in which there was no DNA repair, and model 2 in which oxygen competition was introduced in the form of WR-1065 to induce chemical repair. These models were compared against published experimental data. Main results . At CONV dose rates, the model reproduced published experimental single strand break (SSB) yields across a range of scavenging capacities, with statistical uncertainties within 2% (one standard deviation). At low scavenging capacities, there was a 54.7% reduction in SSBs and a 73.5% reduction in double strand breaks at UHDR compared to CONV. At biologically relevant scavenging capacities this difference was within the statistical uncertainty, and there were no observed differences in chemical repair by WR-1065 between UHDR and CONV. Significance . These results suggest that the reduction in DNA damage observed experimentally at low DNA concentrations and low scavenging capacities is due to the intertrack effect, with no difference predicted at low DNA concentrations and cell-like scavenging capacities.
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