Vanderbilt University School of Medicine. Nashville, TN, USA.
J Ultrasound Med. 2010 Apr;29(4):597-607. doi: 10.7863/jum.2010.29.4.597.
The purpose of our study was to establish in vivo criteria for monitoring tumor treatment response using 3-dimensional (3D) volumetric gray scale, power Doppler, and contrast-enhanced sonography.
Twelve mice were implanted with Lewis lung carcinoma cells on their hind limbs and categorized to 4 groups: control, chemotherapy, radiation therapy, and chemoradiation. A high-frequency ultrasound system with a 40-MHz probe was used to image the tumors. Follow-up contrast-enhanced sonography was performed on days 7 and 14 of treatment with two 50-microL boluses of a perflutren microbubble contrast agent injected into the tail vein. The following contrast-enhanced sonographic criteria were quantified: time to peak, peak intensity, alpha (microvessel cross-sectional area), and beta (microbubble velocity). Three-dimensional power Doppler images were also obtained after the acquisition of contrast data. On day 15, the tumors were excised for immunohistochemical analysis with CD31 fluorescent staining.
The tumor size and 3D power Doppler vascular index showed no statistically significant correlation with microvascular density in all examined groups. Among all of the analyzed contrast-enhanced sonographic parameters, relative alpha showed the strongest correlation with the histologic microvessel density (Pearson r = 0.93; P < .01) and an independent association with the histologic data in a multiple regression model (beta = .93; R(2) = 0.86; P < .01).
Of the various examined sonographic parameters, alpha has the strongest correlation with histologic microvessel density and may be the parameter of choice for the noninvasive monitoring of tumor angiogenic response in vivo.
本研究旨在通过三维(3D)容积灰阶、能量多普勒和超声造影建立监测肿瘤治疗反应的体内标准。
12 只小鼠后腿植入 Lewis 肺癌细胞,分为 4 组:对照组、化疗组、放疗组和放化疗组。使用高频超声系统和 40MHz 探头对肿瘤进行成像。在治疗的第 7 天和第 14 天,经尾静脉注射两次 50μL 全氟丙烷微泡造影剂进行随访造影超声检查。量化以下造影超声标准:达峰时间、峰值强度、α(微血管截面积)和β(微泡速度)。在获取对比数据后,还获得了三维能量多普勒图像。第 15 天,切除肿瘤进行 CD31 荧光染色的免疫组织化学分析。
在所有检查的组中,肿瘤大小和 3D 能量多普勒血管指数与微血管密度均无统计学显著相关性。在所有分析的对比增强超声参数中,相对α与组织学微血管密度相关性最强(Pearson r = 0.93;P <.01),并在多元回归模型中与组织学数据具有独立关联(β=.93;R²= 0.86;P <.01)。
在检查的各种超声参数中,α与组织学微血管密度相关性最强,可能是体内非侵入性监测肿瘤血管生成反应的首选参数。
