兔肝转移瘤的离体肝灌注:热疗对肿瘤新生血管通透性的影响
Isolated hepatic perfusion for lapine liver metastases: impact of hyperthermia on permeability of tumor neovasculature.
作者信息
Gnant M F, Noll L A, Terrill R E, Wu P C, Berger A C, Nguyen H Q, Lans T E, Flynn B M, Libutti S K, Bartlett D L, Alexander H R
机构信息
Surgery Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.
出版信息
Surgery. 1999 Nov;126(5):890-9.
BACKGROUND
Hyperthermic isolated hepatic perfusion (IHP) has been shown to cause significant regression of advanced unresectable liver metastases in patients. Although there are different agents and treatment modalities used in IHP, the contribution of perfusion hyperthermia is unknown.
PURPOSE
A large animal model of unresectable liver metastases and a technical standard for IHP in this model were established. This model was used to assess the effects of hyperthermia on vascular permeability of tumors and normal liver tissue during IHP.
METHODS
Sixty-five New Zealand White rabbits were used in a series of experiments. Disseminated liver tumors were established by direct injection of 1 x 10(6) VX-2 cells into the portal vein by laparotomy in anesthetized animals. Several surgical perfusion techniques were explored to determine a reliable and reproducible IHP model. Vascular permeability in tumor versus liver was then assessed with Evan's Blue labeled bovine albumin under normothermic (tissue temperature 36.5 degrees C +/- 0.5 degree C), moderate hyperthermic (39 degrees C +/- 0.5 degree C), or severe hyperthermic (41 degrees C +/- 0.5 degree C) conditions.
RESULTS
Tumor model and perfusion techniques were successfully established with inflow through the portal vein and outflow through an isolated segment of the inferior vena cava. A gravity driven perfusion circuit with stable perfusion parameters and complete vascular isolation was used. Vascular permeability was higher in tumor than in normal tissues (P = .03) at all time points during IHP. Hyperthermia resulted in a significant (up to 5-fold) increase in permeability of neovasculature; when severe hyperthermia was used, tumor vascular permeability was increased even more than normal liver permeability (P = .01).
CONCLUSIONS
The VX-2/New Zealand White rabbit system can be used as a reproducible large-animal model for IHP of unresectable liver metastases. It can be used to characterize the contribution and mechanism of action of different treatment parameters used in IHP. Hyperthermia preferentially increases vascular permeability in tumors compared with liver tissue in a dose-dependent fashion, thus providing a mechanism for its presumed benefit during isolated organ perfusion.
背景
热灌注隔离肝灌注(IHP)已被证明可使晚期不可切除肝转移患者的肿瘤显著消退。尽管IHP中使用了不同的药物和治疗方式,但灌注热疗的作用尚不清楚。
目的
建立不可切除肝转移的大型动物模型以及该模型中IHP的技术标准。该模型用于评估IHP期间热疗对肿瘤和正常肝组织血管通透性的影响。
方法
65只新西兰白兔用于一系列实验。在麻醉动物中通过剖腹术将1×10⁶VX-2细胞直接注入门静脉来建立播散性肝肿瘤。探索了几种手术灌注技术以确定可靠且可重复的IHP模型。然后在常温(组织温度36.5℃±0.5℃)、中度热疗(39℃±0.5℃)或重度热疗(41℃±0.5℃)条件下,用伊文思蓝标记的牛白蛋白评估肿瘤与肝脏的血管通透性。
结果
成功建立了肿瘤模型和灌注技术,通过门静脉流入,经下腔静脉的一个孤立段流出。使用了具有稳定灌注参数和完全血管隔离的重力驱动灌注回路。在IHP期间的所有时间点,肿瘤的血管通透性均高于正常组织(P = 0.03)。热疗导致新生血管通透性显著增加(高达5倍);当使用重度热疗时,肿瘤血管通透性的增加甚至超过正常肝脏通透性(P = 0.01)。
结论
VX-2/新西兰白兔系统可作为不可切除肝转移IHP的可重复大型动物模型。它可用于表征IHP中使用的不同治疗参数的作用和作用机制。与肝组织相比,热疗以剂量依赖的方式优先增加肿瘤中的血管通透性,从而为其在离体器官灌注期间的假定益处提供了一种机制。
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