金纳米粒子的放射增敏效应研究

系统阐述了与金纳米粒子(GNPs) 放射增敏效应相关实验的方法与结果、影响GNPs 放射增敏的因素、GNPs 放射增敏的细胞和动物实验表现及其相关机制。同时结合相关实验，分析和比较了15 nm 柠檬酸钠包被的GNPs 的放射增敏效应，发现GNPs 在高LET 的碳离子束和低LET 的X射线辐照下对Hela细胞的杀伤力随其浓度的增加而增大；在50% 的细胞存活率下，当GNPs 的质量浓度为7.5 g/mL时，其X射线的剂量减少率和碳离子的相对生物学效应值(RBE) 的增加率达到了最大，分别为65.3% 和43.6%，同时GNPs 共培养细胞24 和48 h 后，未出现细胞周期同步化的现象。This paper describes the methods and results of the previous experiments, the experimental phenomena of the cell and animal tests and the relative mechanisms on the radiosensitizing effect of GNPs. Together with our experiments, the radiosensitizing effects of 15 nm citrate-capped GNPs and related mechanisms are analyzed and compared, finding that Hela cell killing of GNPs increase along with their concentration after exposure to high- and low-LET radiation such as carbon ions and X-rays. In addition, the percentages of dose reduction of the X-rays and RBE increment of the carbon ions reached their maximums 65.3% and 43.6%, respectively,at 50% survival level when Hela cells were pre-treated with 7.5 g/mL GNPs. Moreover, Hela cells showed no cell-cycle synchronization after 24 and 48 h exposure to GNPs.

Research on the Radiosensitizing Effect of Gold Nanoparticles

This paper describes the methods and results of the previous experiments, the experimental phenomena of the cell and animal tests and the relative mechanisms on the radiosensitizing effect of GNPs. Together with our experiments, the radiosensitizing effects of 15 nm citrate-capped GNPs and related mechanisms are analyzed and compared, finding that Hela cell killing of GNPs increase along with their concentration after exposure to high- and low-LET radiation such as carbon ions and X-rays. In addition, the percentages of dose reduction of the X-rays and RBE increment of the carbon ions reached their maximums 65.3% and 43.6%, respectively,at 50% survival level when Hela cells were pre-treated with 7.5 g/mL GNPs. Moreover, Hela cells showed no cell-cycle synchronization after 24 and 48 h exposure to GNPs.