Branching and nonbranching intracranial aneurysms in the presence of a persistent stapedial artery and an aberrant internal carotid artery assessed with computational hemodynamics: illustrative case.

Céline Salaud, Tristan Martin, Gilles El Hage, Michel W Bojanowski
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Abstract

Background: The mechanisms underlying the initiation and progression of bifurcation versus lateral wall aneurysms are not well understood. Computational fluid dynamics (CFD) can improve the understanding of these mechanisms and can consequently help identify patients at higher risk for developing aneurysms and monitor them more closely.

Observations: A 36-year-old man presented with a ruptured anterior communicating artery aneurysm, which was successfully treated with microsurgical clipping. Imaging also revealed a persistent stapedial artery with an elongated and tortuous posterior communicating artery (PComA). Fourteen years later, he was readmitted for a ruptured aneurysm on a PComA loop. CFD helped identify considerable collateral circulation due to the aberrant internal carotid artery (ICA). High flow rates trigger both types of aneurysms, but nuances exist in the hemodynamic mechanisms that drive their growth.

Lessons: Berry aneurysms and lateral wall aneurysms initially start due to a high flow rate, a common underlying cause. However, the formation of true sidewall aneurysms is primarily characterized by locally increased wall shear stress, while the development of berry aneurysms is mainly linked to high local blood pressure at arterial bifurcations. An aberrant ICA can lead to supraphysiological compensatory flow in the anterior and posterior circulation, increasing the risk of intracranial aneurysm formation at both branching and nonbranching sites, underscoring the need for lifelong monitoring. https://thejns.org/doi/10.3171/CASE24421.

利用计算血液动力学评估存在持续性镫骨动脉和异常颈内动脉的分支和非分支颅内动脉瘤:示例病例。
背景:分叉动脉瘤和侧壁动脉瘤的发生和发展机制尚不十分清楚。计算流体动力学(CFD)可以加深对这些机制的理解,从而有助于识别动脉瘤高危患者并对其进行更密切的监测:一名 36 岁的男子因前沟通动脉动脉瘤破裂前来就诊,经显微外科夹闭手术成功治疗。影像学检查还发现了一条持续存在的镫骨动脉,以及一条拉长且迂曲的后交通动脉(PComA)。14 年后,他因 PComA 回路上的动脉瘤破裂再次入院。CFD帮助确定了颈内动脉(ICA)异常导致的大量侧支循环。高流速会诱发这两种类型的动脉瘤,但驱动其生长的血液动力学机制存在细微差别:贝里动脉瘤和侧壁动脉瘤最初都是由于高流速引起的,这是一个共同的根本原因。然而,真正侧壁动脉瘤的形成主要是由于局部动脉壁剪应力增加,而浆液性动脉瘤的形成则主要与动脉分叉处的局部高血压有关。畸形的 ICA 会导致前后循环出现超生理代偿血流,从而增加分支和非分支部位形成颅内动脉瘤的风险,因此需要进行终生监测。https://thejns.org/doi/10.3171/CASE24421。
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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