Middle cerebral artery occlusion during MR-imaging: investigation of the hyperacute phase of stroke using a new in-bore occlusion model in rats

Brain research. Brain research protocols Pub Date : 2004-02-01 DOI:10.1016/j.brainresprot.2003.08.006

Tibo Gerriets , Erwin Stolz , Maureen Walberer , Clemens Müller , Alexander Kluge , Manfred Kaps , Marc Fisher , Georg Bachmann

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引用次数: 54

Abstract

Magnetic resonance imaging (MRI) provides insights into the dynamics of focal cerebral ischemia. Usually, experimental stroke is induced outside the magnet bore, preventing investigators from acquiring pre-ischemic images for later pixel-by-pixel comparisons and from studying the earliest changes in the hyperacute phase of ischemia. Herein, we introduce a new and easy to apply in-bore occlusion protocol based on the intraarterial embolization of ceramic macrospheres.

PE-50 tubing, filled with saline and six macrospheres (0.315–0.355 mm in diameter), was placed into the internal carotid artery (ICA) of anesthetized Sprague–Dawley rats. The animals were transferred into an MRI scanner (7.0 T) and baseline diffusion-weighted imaging (DWI) and T2-imaging was performed. Then the macrospheres were injected into the internal artery to occlude the MCA. Post-ischemic DWI and T2-imaging was started immediately thereafter. The apparent diffusion coefficient (ADC) (a marker for cytotoxic brain edema) and T2-relaxation time (a marker for vasogenic brain edema) were determined in the ischemic lesions and compared to the unaffected hemisphere.

ADC significantly declined within the first 5–10 min after stroke onset. T2-relaxation time increased as early as at the first T2-imaging time-point (20–35 min after embolization). After 150 min of ischemia, the lesions covered 18.0±7.4% of the hemispheres. The model failed in one out of nine animals (11%).

This model allows MR-imaging from the initial minutes after permanent middle cerebral artery (MCA) occlusion. It does not permit reperfusion. This technique might provide information about the pathophysiological processes in the hyperacute phase of stroke.

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磁共振成像时大脑中动脉闭塞:用一种新的脑内闭塞模型研究大鼠脑卒中超急性期

磁共振成像(MRI)提供了对局灶性脑缺血动力学的见解。通常，实验性脑卒中是在磁孔外诱导的，这使得研究人员无法获得缺血前的图像，以供后期逐像素比较，也无法研究缺血超急性期的早期变化。在此，我们介绍了一种新的、易于应用的基于陶瓷大球动脉内栓塞的腔内闭塞方案。将PE-50管置入麻醉大鼠颈内动脉(ICA)，管内注入生理盐水和6个直径为0.315 ~ 0.355 mm的大球体。将动物转移到MRI扫描仪(7.0 T)并进行基线弥散加权成像(DWI)和t2成像。然后将巨球注射到内动脉内，阻断中动脉。随后立即开始缺血后DWI和t2成像。在缺血性病变中测定表观扩散系数(ADC)(细胞毒性脑水肿的标志)和t2松弛时间(血管源性脑水肿的标志)，并与未受影响的半球进行比较。ADC在卒中后5-10分钟内显著下降。栓塞后20 ~ 35min, t2舒张时间早在第一个t2成像时间点就有所增加。缺血150 min后，病变面积达18.0±7.4%。这个模型在九分之一的动物身上失败了(11%)。该模型允许在永久性大脑中动脉(MCA)闭塞后的最初几分钟进行核磁共振成像。它不允许再灌注。这项技术可能提供有关脑卒中超急性期病理生理过程的信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brain research. Brain research protocols

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