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经放射外科和血管靶向治疗的动静脉畸形大鼠模型中的持久血栓形成。

Durable thrombosis in a rat model of arteriovenous malformation treated with radiosurgery and vascular targeting.

机构信息

Prince of Wales Medical Research Institute;

出版信息

J Neurosurg. 2014 Jan;120(1):113-9. doi: 10.3171/2013.9.JNS122056. Epub 2013 Nov 1.

Abstract

OBJECT

Radiosurgical treatment of brain arteriovenous malformations (AVMs) has the significant shortcomings of being limited to lesions smaller than 3 cm in diameter and of a latency-to-cure time of up to 3 years. A possible method of overcoming these limitations is stimulation of thrombosis by using vascular targeting. Using an animal model of AVM, the authors examined the durability of the thrombosis induced by the vascular-targeting agents lipopolysaccharide and soluble tissue factor conjugate (LPS/sTF).

METHODS

Stereotactic radiosurgery or sham radiation was administered to 32 male Sprague-Dawley rats serving as an animal model of AVM; 24 hours after this intervention, the rats received an intravenous injection of LPS/sTF or normal saline. The animals were killed at 1, 7, 30, or 90 days after treatment. Immediately beforehand, angiography was performed, and model AVM tissue was harvested for histological analysis to assess rates of vessel thrombosis.

RESULTS

Among rats that received radiosurgery and LPS/sTF, induced thrombosis occurred in 58% of small AVM vessels; among those that received radiosurgery and saline, thrombosis occurred in 12% of small AVM vessels (diameter < 200 μm); and among those that received LPS/sTF but no radiosurgery, thrombosis occurred at an intermediate rate of 43%. No systemic toxicity or intravascular thrombosis remote from the target region was detected in any of the animals.

CONCLUSIONS

Vascular targeting can increase intravascular thrombosis after radiosurgery, and the vessel occlusion is durable. Further work is needed to refine this approach to AVM treatment, which shows promise as a way to overcome the limitations of radiosurgery.

摘要

目的

放射外科治疗脑动静脉畸形(AVM)存在明显的局限性,只能治疗直径小于 3cm 的病变,且治愈时间长达 3 年。一种可能的克服这些局限性的方法是使用血管靶向刺激血栓形成。作者使用 AVM 动物模型,研究了血管靶向剂脂多糖和可溶性组织因子缀合物(LPS/sTF)诱导血栓形成的持久性。

方法

立体定向放射外科或假辐射用于 32 只雄性 Sprague-Dawley 大鼠作为 AVM 的动物模型;干预 24 小时后,大鼠接受 LPS/sTF 或生理盐水静脉注射。治疗后 1、7、30 或 90 天处死动物。在此之前,进行血管造影,并采集模型 AVM 组织进行组织学分析,以评估血管血栓形成率。

结果

接受放射外科和 LPS/sTF 的大鼠中,58%的小 AVM 血管发生诱导性血栓形成;接受放射外科和盐水的大鼠中,12%的小 AVM 血管发生血栓形成(直径<200μm);接受 LPS/sTF 但未接受放射外科的大鼠中,血栓形成率为 43%。未发现任何动物出现全身毒性或靶区以外的血管内血栓形成。

结论

血管靶向可以增加放射外科后的血管内血栓形成,并且血管闭塞是持久的。需要进一步研究来完善这种 AVM 治疗方法,它显示出克服放射外科局限性的潜力。

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