Molecular Imaging Program at Stanford, Department of Radiology, Stanford University School of Medicine, Stanford, CA. USA.
Invest Radiol. 2012 Jan;47(1):25-32. doi: 10.1097/RLI.0b013e31823a82f6.
To assess early treatment effects on computed tomography (CT) perfusion parameters after antiangiogenic and radiation therapy in subcutaneously implanted, human colon cancer xenografts in mice and to correlate in vivo CT perfusion parameters with ex vivo assays of tumor vascularity and hypoxia.
Dynamic contrast-enhanced CT (perfusion CT, 129 mAs, 80 kV, 12 slices × 2.4 mm; 150 μL iodinated contrast agent injected at a rate of 1 mL/min intravenously) was performed in 100 subcutaneous human colon cancer xenografts on baseline day 0. Mice in group 1 (n=32) received a single dose of the antiangiogenic agent bevacizumab (10 mg/kg body weight), mice in group 2 (n=32) underwent a single radiation treatment (12 Gy), and mice in group 3 (n=32) remained untreated. On days 1, 3, 5, and 7 after treatment, 8 mice from each group underwent a second CT perfusion scan, respectively, after which tumors were excised for ex vivo analysis. Four mice were killed after baseline scanning on day 0 for ex vivo analysis. Blood flow (BF), blood volume (BV), and flow extraction product were calculated using the left ventricle as an arterial input function. Correlation of in vivo CT perfusion parameters with ex vivo microvessel density and extent of tumor hypoxia were assessed by immunofluorescence. Reproducibility of CT perfusion parameter measurements was calculated in an additional 8 tumor-bearing mice scanned twice within 5 hours with the same CT perfusion imaging protocol.
The intraclass correlation coefficients for BF, BV, and flow extraction product from repeated CT perfusion scans were 0.93 (95% confidence interval: 0.78, 0.97), 0.88 (0.66, 0.95), and 0.88 (0.56, 0.95), respectively. Changes in perfusion parameters and tumor volumes over time were different between treatments. After bevacizumab treatment, all 3 perfusion parameters significantly decreased from day 1 (P ≤ 0.006) and remained significantly decreased until day 7 (P ≤ 0.008); tumor volume increased significantly only on day 7 (P=0.04). After radiation treatment, all 3 perfusion parameters decreased significantly on day 1 (P < 0.001); BF and flow extraction product increased again on day 3 and 5, although without reaching statistically significant difference; and tumor volumes did not change significantly at all time points (P ≥ 0.3). In the control group, all 3 perfusion parameters did not change significantly, whereas tumor volume increased significantly at all the time points, compared with baseline (P ≤ 0.04). Ex vivo immunofluorescent staining showed good correlation between all 3 perfusion parameters and microvessel density (ρ=0.71, 0.66, and 0.69 for BF, BV, and flow extraction product, respectively; P < 0.001). There was a trend toward negative correlation between extent of hypoxia and all 3 perfusion parameters (ρ=-0.53, -0.47, and -0.40 for BF, BV, and flow extraction product, respectively; P ≥ 0.05).
CT perfusion allows a reproducible, noninvasive assessment of tumor vascularity in human colon cancer xenografts in mice. After antiangiogenic and radiation therapy, BF, BV, and flow extraction product significantly decrease and change faster than the tumor volume.
评估皮下植入的人结肠癌细胞异种移植瘤小鼠抗血管生成和放射治疗后 CT 灌注参数的早期治疗效果,并将体内 CT 灌注参数与肿瘤血管生成和缺氧的体外检测进行相关性分析。
100 例皮下人结肠癌细胞异种移植瘤于基线日 0 行动态对比增强 CT(灌注 CT,129 mAs,80 kV,12 层×2.4mm;150μL 碘造影剂以 1mL/min 的速度静脉内注射)。第 1 组(n=32)小鼠接受单次抗血管生成药物贝伐单抗(10mg/kg 体重)治疗,第 2 组(n=32)小鼠接受单次放射治疗(12Gy),第 3 组(n=32)小鼠未治疗。治疗后第 1、3、5 和 7 天,每组分别有 8 只小鼠行第二次 CT 灌注扫描,随后切除肿瘤进行体外分析。第 0 天基线扫描后有 4 只小鼠用于体外分析。左心室作为动脉输入函数计算血流量(BF)、血容量(BV)和血流提取产物。通过免疫荧光法评估体内 CT 灌注参数与体外微血管密度和肿瘤缺氧程度的相关性。在另外 8 只荷瘤小鼠中,在相同的 CT 灌注成像方案下,在 5 小时内进行两次扫描,计算 CT 灌注参数测量的可重复性。
重复 CT 灌注扫描的 BF、BV 和血流提取产物的组内相关系数分别为 0.93(95%置信区间:0.78,0.97)、0.88(0.66,0.95)和 0.88(0.56,0.95)。治疗之间灌注参数和肿瘤体积随时间的变化不同。贝伐单抗治疗后,所有 3 个灌注参数从第 1 天开始明显下降(P≤0.006),直至第 7 天仍明显下降(P≤0.008);肿瘤体积仅在第 7 天明显增加(P=0.04)。放射治疗后,所有 3 个灌注参数在第 1 天均明显下降(P<0.001);BF 和血流提取产物在第 3 和 5 天再次增加,尽管没有达到统计学上的显著差异;而肿瘤体积在所有时间点均无明显变化(P≥0.3)。在对照组中,与基线相比,所有 3 个灌注参数均无明显变化,而肿瘤体积在所有时间点均明显增加(P≤0.04)。体外免疫荧光染色显示所有 3 个灌注参数与微血管密度之间存在良好的相关性(BF、BV 和血流提取产物的ρ值分别为 0.71、0.66 和 0.69,P<0.001)。缺氧程度与所有 3 个灌注参数呈负相关趋势(BF、BV 和血流提取产物的ρ值分别为-0.53、-0.47 和-0.40,P≥0.05)。
CT 灌注可对小鼠人结肠癌细胞异种移植瘤的肿瘤血管生成进行可重复、无创的评估。抗血管生成和放射治疗后,BF、BV 和血流提取产物明显下降,且变化速度快于肿瘤体积。