急性血流增加后快速脑血管形态适应性的体内评估
In vivo assessment of rapid cerebrovascular morphological adaptation following acute blood flow increase.
作者信息
Hoi Yiemeng, Gao Ling, Tremmel Markus, Paluch Rocco A, Siddiqui Adnan H, Meng Hui, Mocco J
机构信息
Toshiba Stroke Research Center, State University of New York at Buffalo, New York 14214, USA.
出版信息
J Neurosurg. 2008 Dec;109(6):1141-7. doi: 10.3171/JNS.2008.109.12.1141.
OBJECT
Pathological extremes in cerebrovascular remodeling may contribute to basilar artery (BA) dolichoectasia and fusiform aneurysm development. Factors regulating cerebrovascular remodeling are poorly understood. To better understand hemodynamic influences on cerebrovascular remodeling, we examined BA remodeling following common carotid artery (CCA) ligation in an animal model.
METHODS
Rabbits were subjected to sham surgery (3 animals), unilateral CCA ligation (3 animals), or bilateral CCA ligation (5 animals). Transcranial Doppler ultrasonography and rotational angiography were used to compute BA flow, diameter, wall shear stress (WSS), and a tortuosity index on Days 0, 1, 4, 7, 14, 28, 56, and 84. Basilar artery tissues were stained and analyzed at Day 84. Statistical analysis was performed using orthogonal contrast analysis, repeated measures analysis of variance, or mixed regression analysis of repeated measures. Statistical significance was defined as a probability value < 0.05.
RESULTS
Basilar artery flow and diameter increased significantly after the procedure in both ligation groups, but only the bilateral CCA ligation group demonstrated significant differences between groups. Wall shear stress significantly increased only in animals in the bilateral CCA ligation group and returned to baseline by Day 28, with 52% of WSS correction occurring by Day 7. Only the bilateral CCA ligation group developed significant BA tortuosity, occurring within 7 days postligation. Unlike the animals in the sham and unilateral CCA ligation groups, the animals in the bilateral CCA ligation group had histological staining results showing a substantial internal elastic lamina fragmentation.
CONCLUSIONS
Increased BA flow results in adaptive BA remodeling until WSS returns to physiological baseline levels. Morphological changes occur rapidly following flow alteration and do not require chronic insult to affect substantial and significant structural transformation. Additionally, it appears that there exists a flow-increase threshold that, when surpassed, results in significant tortuosity.
目的
脑血管重塑的极端病理情况可能导致基底动脉(BA)迂曲扩张和梭形动脉瘤的形成。目前对调节脑血管重塑的因素了解甚少。为了更好地理解血流动力学对脑血管重塑的影响,我们在动物模型中研究了颈总动脉(CCA)结扎后BA的重塑情况。
方法
将兔子分为假手术组(3只动物)、单侧CCA结扎组(3只动物)或双侧CCA结扎组(5只动物)。在第0、1、4、7、14、28、56和84天,使用经颅多普勒超声和旋转血管造影来计算BA血流、直径、壁面切应力(WSS)和迂曲指数。在第84天对基底动脉组织进行染色和分析。使用正交对比分析、重复测量方差分析或重复测量的混合回归分析进行统计分析。统计学显著性定义为概率值<0.05。
结果
在两个结扎组中,手术后BA血流和直径均显著增加,但只有双侧CCA结扎组在组间表现出显著差异。壁面切应力仅在双侧CCA结扎组的动物中显著增加,并在第28天恢复到基线水平,其中52%的WSS校正发生在第7天。只有双侧CCA结扎组出现了显著的BA迂曲,发生在结扎后7天内。与假手术组和单侧CCA结扎组的动物不同,双侧CCA结扎组的动物组织学染色结果显示内弹性膜有大量断裂。
结论
BA血流增加导致适应性BA重塑,直至WSS恢复到生理基线水平。血流改变后形态学变化迅速发生,不需要长期损伤就能影响显著的结构转变。此外,似乎存在一个血流增加阈值,超过该阈值会导致显著的迂曲。
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