Horsman Michael R, Murata Rumi
Department of Experimental Clinical Oncology, Aarhus University Hospital, Aarhus, Denmark.
Int J Radiat Oncol Biol Phys. 2002 Dec 1;54(5):1518-23. doi: 10.1016/s0360-3016(02)03926-3.
The most likely clinical application of vascular targeting agents (VTAs) is in combination with more conventional therapies. In this study, we report on preclinical studies in which VTAs were combined with hyperthermia and/or radiation.
A C3H mammary carcinoma grown in the right rear foot of female CDF1 mice was treated when at 200 mm3 in size. The VTAs were combretastatin A-4 disodium phosphate (CA4DP, 25 mg/kg), flavone acetic acid (FAA, 150 mg/kg), and 5,6-dimethylxanthenone-4-acetic acid (DMXAA, 20 mg/kg), and were all injected i.p. Hyperthermia and radiation were locally administered to tumors of restrained, nonanesthetized mice, and response was assessed using either a tumor growth or tumor control assay.
Heating tumors at 41.5 degrees C gave rise to a linear relationship between the heating time and tumor growth with a slope of 0.02. This slope was increased to 0.06, 0.09, and 0.08, respectively, by injecting the VTAs either 30 min (CA4DP), 3 h (FAA), or 6 h (DMXAA) before heating. The radiation dose (+/-95% confidence interval) that controls 50% of treated tumors (the TCD(50) value) was estimated to be 53 Gy (51-55 Gy) for radiation alone. This was decreased to 48 Gy (46-51 Gy), 45 Gy (41-49 Gy), and 42 Gy (39-45 Gy), respectively, by injecting CA4DP, DMXAA, or FAA 30-60 min after irradiating. These values were further decreased to around 28-33 Gy if the tumors of VTA-treated mice were also heated to 41.5 degrees C for 1 h, starting 4 h after irradiation, and this effect was much larger than the enhancement seen with either 41.5 degrees C or even 43 degrees C alone.
Our preclinical studies and those of others clearly demonstrate that VTAs can enhance tumor response to hyperthermia and/or radiation and support the concept that such combination studies should be undertaken clinically for the full potential of VTAs to be realized.
血管靶向剂(VTA)最有可能的临床应用是与更传统的疗法联合使用。在本研究中,我们报告了VTA与热疗和/或放疗联合应用的临床前研究。
当雌性CDF1小鼠右后足的C3H乳腺癌生长至200立方毫米大小时进行治疗。血管靶向剂为磷酸二钠康普瑞汀A - 4(CA4DP,25毫克/千克)、黄酮乙酸(FAA,150毫克/千克)和5,6 - 二甲基呫吨酮 - 4 - 乙酸(DMXAA,20毫克/千克),均通过腹腔注射给药。对受约束、未麻醉小鼠的肿瘤进行局部热疗和放疗,并使用肿瘤生长或肿瘤控制试验评估反应。
在41.5摄氏度加热肿瘤时,加热时间与肿瘤生长之间呈现线性关系,斜率为0.02。在加热前30分钟(CA4DP)、3小时(FAA)或6小时(DMXAA)注射VTA后,该斜率分别增加到0.06、0.09和0.08。单独放疗时,控制50%治疗肿瘤的辐射剂量(±95%置信区间)估计为53 Gy(51 - 55 Gy)。在照射后30 - 60分钟注射CA4DP、DMXAA或FAA后,该剂量分别降至48 Gy(46 - 51 Gy)、45 Gy(41 - 49 Gy)和42 Gy(39 - 45 Gy)。如果在放疗后4小时开始,将接受VTA治疗小鼠的肿瘤也加热至41.5摄氏度1小时,这些值会进一步降至约28 - 33 Gy,且这种效果远大于单独使用41.5摄氏度甚至43摄氏度时所观察到的增强效果。
我们的临床前研究以及其他研究清楚地表明,VTA可增强肿瘤对热疗和/或放疗的反应,并支持以下观点,即应在临床上开展此类联合研究,以充分发挥VTA的潜力。
