计算流体动力学在颅内动脉粥样硬化疾病中的应用

IF 2.1 Q3 CLINICAL NEUROLOGY
A. Ballout, Grace Prochilo, N. Kaneko, Chuanlong Li, Ryan Apfel, J. Hinman, D. Liebeskind
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引用次数: 3

摘要

颅内动脉粥样硬化性疾病复发卒中的风险仍然很高,尽管积极的药物治疗。虽然血流动力学功能不全似乎是中风复发的一个强有力的标志,但使用各种单峰成像方式的自然史研究显示出不同的结果,因为它们可能不能充分捕捉到局灶性狭窄产生的复杂的局部血流动力学环境。计算流体动力学是一种多模态工具,用于模拟流体流动和流体与表面之间的相互作用,最近被用于说明颅内动脉粥样硬化病变周围复杂的血流动力学环境,并根据模拟输出对患者进行风险分层。我们的目的是总结有关计算流体动力学在颅内动脉粥样硬化疾病中的应用的文献,并描述其在产生更有针对性的治疗方面的未来潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational Fluid Dynamics in Intracranial Atherosclerotic Disease
Recurrent stroke risk in intracranial atherosclerotic disease remains high despite aggressive medical therapy. While hemodynamic insufficiency appears to be a strong marker of stroke recurrence, natural history studies using various unimodal imaging modalities have shown mixed results, as they likely do not adequately capture the complex local hemodynamic environment generated by a focal stenosis. Computational fluid dynamics, a multimodal tool used to simulate fluid flow and the interactions between fluids and surfaces, has recently been used to illustrate the complex hemodynamic environment surrounding intracranial atherosclerotic lesions and to risk‐stratify patients on the basis of simulated outputs. We aimed to summarize the literature pertaining to computational fluid dynamics use in intracranial atherosclerotic disease and to describe its future potential use in generating more targeted therapies.
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