阿霉素脂质体辅助治疗显著影响射频消融术对消融区微血管的影响。
Adjuvant liposomal doxorubicin markedly affects radiofrequency ablation-induced effects on periablational microvasculature.
机构信息
Laboratory for Minimally Invasive Tumor Therapies, Department of Radiology, Beth Israel Deaconess Medical Center/Harvard Medical School, Boston, MA 02215, USA.
出版信息
J Vasc Interv Radiol. 2013 Jul;24(7):1021-33. doi: 10.1016/j.jvir.2013.03.006. Epub 2013 May 9.
PURPOSE
To evaluate the effects of radiofrequency (RF) ablation without and with adjuvant intravenous (IV) liposomal doxorubicin (Doxil) on microvessel morphology and patency and intratumoral drug delivery and retention.
MATERIALS AND METHODS
There were 133 tumors/animals used in this experiment. First, single subcutaneous tumors (R3230 in Fischer rats and 786-0 in nude mice) were randomly assigned to receive RF ablation alone or no treatment and sacrificed 0-72 hours after treatment. Next, combined RF ablation and liposomal doxorubicin (1 mg given 15 min after RF ablation) was studied in R3230 tumors at 0-72 hours after treatment. Histopathologic assessment, including immunohistochemical staining for cleaved caspase-3, heat-shock protein 70, and CD34, was performed to assess morphologic vessel appearance, vessel diameter, and microvascular density. Subsequently, tumors were randomly assigned to receive RF ablation alone, RF ablation and liposomal doxorubicin, or no treatment (control tumors), followed by IV fluorescent-labeled liposomes (a surrogate marker) given 0-24 hours after RF ablation to permit qualitative assessment.
RESULTS
RF ablation alone resulted in enlarged and dysmorphic vessels from 0-4 hours, peaking at 12-24 hours after RF ablation, occurring preferentially closer to the electrode. The addition of doxorubicin resulted in earlier vessel contraction (mean vessel area, 47,539 μm(2)±9,544 vs 1,854 μm(2)±458 for RF ablation alone at 15 min; P<.05). Combined RF ablation and liposomal doxorubicin produced similar fluorescence 1 hour after treatment (40.88 AU/μm(2)±33.53 vs 22.1 AU/μm(2)±13.19; P = .14) but significantly less fluorescence at 4 hours (24.3 AU/μm(2)±3.65 vs 2.8 AU/μm(2)±3.14; P<.002) compared with RF ablation alone denoting earlier reduction in microvascular patency.
CONCLUSIONS
RF ablation induces morphologic changes to vessels within the ablation zone lasting 12-24 hours after treatment. The addition of liposomal doxorubicin causes early vessel contraction and a reduction in periablational microvascular patency. Such changes would likely need to be considered when determining optimal drug administration and imaging paradigms.
目的
评估射频 (RF) 消融联合和不联合静脉 (IV) 脂质体阿霉素 (Doxil) 对微血管形态和通畅性以及肿瘤内药物输送和保留的影响。
材料和方法
本实验共使用了 133 个肿瘤/动物。首先,将单个皮下肿瘤(Fischer 大鼠的 R3230 和裸鼠的 786-0)随机分为接受 RF 消融治疗组和不治疗组,并在治疗后 0-72 小时处死。接下来,在治疗后 0-72 小时,对 R3230 肿瘤进行联合 RF 消融和脂质体阿霉素(治疗后 15 分钟给予 1 毫克)治疗。采用免疫组织化学染色法检测凋亡蛋白酶-3、热休克蛋白 70 和 CD34,评估形态学血管外观、血管直径和微血管密度。随后,将肿瘤随机分为单独接受 RF 消融、RF 消融联合脂质体阿霉素或不治疗(对照肿瘤)组,然后在 RF 消融后 0-24 小时内给予 IV 荧光标记的脂质体(替代标志物),以进行定性评估。
结果
单独接受 RF 消融治疗后 0-4 小时出现血管扩大和形态异常,12-24 小时达到高峰,更靠近电极。联合使用阿霉素治疗后血管收缩更早(平均血管面积,47539μm²±9544 比单独接受 RF 消融治疗 15 分钟时的 1854μm²±458;P<.05)。联合 RF 消融和脂质体阿霉素治疗 1 小时后产生相似的荧光(40.88 AU/μm²±33.53 比单独接受 RF 消融治疗时的 22.1 AU/μm²±13.19;P =.14),但 4 小时时的荧光明显减少(24.3 AU/μm²±3.65 比 2.8 AU/μm²±3.14;P<.002),表示微血管通畅性更早降低。
结论
RF 消融会导致消融区域内的血管形态发生变化,这种变化可持续 12-24 小时。联合使用脂质体阿霉素会导致血管早期收缩和消融区域周围的微血管通畅性降低。在确定最佳药物给药和成像方案时,需要考虑这些变化。
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