脑血管重塑的决定因素:大脑大动脉能否适应狭窄?
Determinants of cerebrovascular remodeling: do large brain arteries accommodate stenosis?
作者信息
Gutierrez Jose, Goldman James, Honig Lawrence S, Elkind Mitchell S V, Morgello Susan, Marshall Randolph S
机构信息
Department of Neurology, College of Physicians and Surgeons, Columbia University Medical Center, NY, USA.
Department of Pathology and Cell Biology, College of Physicians and Surgeons, Columbia University Medical Center, NY, USA.
出版信息
Atherosclerosis. 2014 Aug;235(2):371-9. doi: 10.1016/j.atherosclerosis.2014.05.925. Epub 2014 May 29.
OBJECTIVE
It is hypothesized that outward remodeling in systemic arteries is a compensatory mechanism for lumen area preservation in the face of increasing arterial stenosis. Large brain arteries have also been studied, but it remains unproven if all assumptions about arterial remodeling can be replicated in the cerebral circulation.
METHODS
The sample included 196 autopsied subjects with a mean age of 55 years; 63 % were men, and 74 % non-Hispanic whites. From each of 1396 dissected cadaveric large arteries of the circle of Willis, the areas of the lumen, intima, media, and adventitia were measured. Internal elastic lamina (IEL) area was defined as the area encircled by this layer. Stenosis was calculated by dividing the plaque area by the IEL area and multiplying by 100.
RESULTS
Plotting stenosis against lumen area or stratified by arterial size showed no preservation of the lumen in the setting of growing stenosis. We could not find an association between greater IEL proportion and stenosis (B = 0.44, P = 0.86). Stratifying arteries by their size, we found that smaller arteries have greater lumen reduction at any degree of stenosis (B = -23.65, P ≤ 0.0001), and although larger arteries show a positive association between IEL proportion and stenosis, this was no longer significant after adjusting for covariates (B = 6.0, P = 0.13).
CONCLUSIONS
We cannot confirm the hypothesis that large brain arteries undergo outward remodeling as an adaptive response to increasing degrees of stenosis. We found that the lumen decreases proportionally to the degree of stenosis.
目的
据推测,面对动脉狭窄的增加,体循环动脉的向外重塑是一种保持管腔面积的代偿机制。虽然也对大脑大动脉进行了研究,但关于动脉重塑的所有假设是否能在脑循环中得到验证仍未得到证实。
方法
样本包括196名平均年龄55岁的尸检对象;63%为男性,74%为非西班牙裔白人。从Willis环的1396条解剖的尸体大动脉中,分别测量管腔、内膜、中膜和外膜的面积。内弹性膜(IEL)面积定义为该层所环绕的面积。狭窄程度通过将斑块面积除以IEL面积再乘以100来计算。
结果
将狭窄程度与管腔面积作图或按动脉大小分层,结果显示在狭窄程度增加的情况下管腔面积并无保持现象。我们未发现IEL比例增加与狭窄之间存在关联(B = 0.44,P = 0.86)。按动脉大小对动脉进行分层后,我们发现较小的动脉在任何狭窄程度下管腔缩小更明显(B = -23.65,P≤0.0001),并且虽然较大的动脉显示IEL比例与狭窄之间呈正相关,但在调整协变量后这种相关性不再显著(B = 6.0,P = 0.13)。
结论
我们无法证实大脑大动脉会经历向外重塑作为对狭窄程度增加的适应性反应这一假设。我们发现管腔面积与狭窄程度成比例减小。
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