Kerber C W, Imbesi S G, Knox K
Department of Radiology, University of California, San Diego Medical Center, 92103, USA.
AJNR Am J Neuroradiol. 1999 Nov-Dec;20(10):2000-3.
We describe and analyze the flow dynamics in replicas of a human anterior communicating artery aneurysm. The replicas were placed in a circuit of pulsating non-Newtonian fluid, and flows were adjusted to replicate human physiologic parameters. Individual slipstreams were opacified with isobaric dyes, and images were recorded on film and by CT/MR angiography. When flow in the afferent (internal carotid) and efferent (anterior and middle cerebral) arteries was bilaterally equal, slipstreams rarely entered the aneurysm. When flow in either the afferent or efferent vessels was not symmetrical, however, slipstreams entered the aneurysm neck, impinged upon the aneurysm dome, and swirled within the aneurysm. Unequal flow in carotid or cerebral systems may be necessary to direct pathologic, fluid slipstreams into an aneurysm.
我们描述并分析了人类前交通动脉瘤复制品中的血流动力学。这些复制品被置于脉动非牛顿流体循环中,并调整血流以复制人体生理参数。通过等压染料使各个滑流变得不透明,并将图像记录在胶片上以及通过CT/MR血管造影术进行记录。当传入(颈内动脉)和传出(大脑前动脉和大脑中动脉)动脉中的血流双侧相等时,滑流很少进入动脉瘤。然而,当传入或传出血管中的血流不对称时,滑流会进入动脉瘤颈部,撞击动脉瘤穹顶,并在动脉瘤内形成漩涡。颈动脉或脑系统中的血流不均等可能是将病理性流体滑流引入动脉瘤所必需的。