Radiology and Biomedical Engineering, Catholic University of Daegu, Daegu, Korea.
Phys Med Biol. 2012 Dec 21;57(24):8309-23. doi: 10.1088/0031-9155/57/24/8309. Epub 2012 Nov 30.
The impact of protons on metallic nanoparticles (MNPs) produces the potent release of MNP-induced secondary electrons and characteristic x-rays. To determine the ability of secondary radiations to enhance proton treatment, the therapeutic irradiation of tumors was investigated in mice receiving 100-300 mg MNPs/kg intravenously prior to single dose, 10-41 Gy, proton irradiation. A proton beam was utilized to irradiate nanoparticles with a single Bragg peak set to occur inside a tumor volume (fully absorbed) or to occur after the beam had traversed the entire body. The dose-dependent increase in complete tumor regression (CTR) was 37-62% in the fully-absorbed irradiation group or 50-100% in the traversing irradiation group, respectively, compared with the proton-alone control mice (p < 0.01). One year survival was 58-100% versus 11-13% proton alone. The dose-dependent increase of intracellular reactive oxygen species level was 12-36% at 10 Gy compared with the proton-alone control cell. Therapeutic effective drug concentration that led to 100% CTR with a proton dose of 31 Gy was measured either 41 µg Au/g tissue or 59 µg Fe/g tissue. MNP-based proton treatment increased not only percent CTR and survival in vivo but also ROS generation in vitro, suggesting tumor dose enhancement from secondary radiation as one potent pathway of therapeutic enhancement.
质子对金属纳米颗粒(MNPs)的影响会产生强大的 MNPs 诱导二次电子和特征 X 射线的释放。为了确定二次辐射增强质子治疗的能力,在单次剂量 10-41 Gy 的质子照射前,给接受 100-300mg MNPs/kg 静脉内给药的小鼠进行肿瘤治疗照射。利用质子束照射纳米颗粒,单个布拉格峰设置为发生在肿瘤体积内(完全吸收)或在光束穿过整个身体后发生。与单独接受质子照射的对照组小鼠相比,完全吸收照射组的完全肿瘤消退(CTR)的剂量依赖性增加分别为 37-62%,或穿透照射组的 50-100%(p < 0.01)。一年存活率分别为 58-100%和 11-13%。与单独接受质子照射的对照组细胞相比,细胞内活性氧(ROS)水平的剂量依赖性增加分别为 12-36%,在 10 Gy 时。导致 31 Gy 质子剂量时 100% CTR 的治疗有效药物浓度分别为 41μg Au/g 组织或 59μg Fe/g 组织。基于 MNPs 的质子治疗不仅增加了体内的 CTR 和存活率,还增加了体外 ROS 的产生,这表明二次辐射作为一种潜在的治疗增强途径增强了肿瘤剂量。
