摘要
Monte Carlo simulations are performed on the dosimetric effect of metallic nanoparticles in a clinical proton irradiation.With an in-water hitting model of a single nanoparticle,the secondar.y electrons dose,deposited around the particle surface,is calculated for the proton irradiations in a typical spread-out Bragg peak.The dose enhancement,as the ratio of electron doses from the target particle and background water,is evaluated for the dependence on the depth of hitting,particle size,elements,coating material and thickness.The results indicate a significant dose enhancement on the particle surface within-200 nm,but a fast decay in further distance.The dose enhancement presents a consistency along the spread-out Bragg peak,a positive dependence on both the particle size and electron density,but a strong attenuation by surface coating.Particle cluster may increase the incdividual dose enhajncement by electron crossfire,but is only noticeable in a compact case.The dose enhancement potentiates a radiosensitization use of metallic nanoparticles in clinical proton therapy,but challenqging meanwhile with the narrow ranqge of enhancement effect.
Monte Carlo simulations are performed on the dosimetric effect of metallic nanoparticles in a clinical proton irradiation.With an in-water hitting model of a single nanoparticle,the secondar.y electrons dose,deposited around the particle surface,is calculated for the proton irradiations in a typical spread-out Bragg peak.The dose enhancement,as the ratio of electron doses from the target particle and background water,is evaluated for the dependence on the depth of hitting,particle size,elements,coating material and thickness.The results indicate a significant dose enhancement on the particle surface within-200 nm,but a fast decay in further distance.The dose enhancement presents a consistency along the spread-out Bragg peak,a positive dependence on both the particle size and electron density,but a strong attenuation by surface coating.Particle cluster may increase the incdividual dose enhajncement by electron crossfire,but is only noticeable in a compact case.The dose enhancement potentiates a radiosensitization use of metallic nanoparticles in clinical proton therapy,but challenqging meanwhile with the narrow ranqge of enhancement effect.
作者
冯爱慧
李响
王旭飞
王孝娃
Ai-Hui Feng;Xiang Li;Xu-Fei Wang;Xiao-Wa Wang(Institute of Modern Physics,Fudan University,Shanghai 200433;Laboratory of Nuclear Physics and Ion-beam Application,Fudan University,Shanghai 200433;Shanghai Proton and Heavy Ion Center,Shanghai 201315)
基金
Supported by the National Natural Science Foundation of China,under Grant Nos 1137504 and 11005019
