通过基于医学图像的计算研究,了解血流动力学在脑动脉瘤的发生、发展、破裂及治疗结果中的作用。
Understanding the role of hemodynamics in the initiation, progression, rupture, and treatment outcome of cerebral aneurysm from medical image-based computational studies.
作者信息
Castro Marcelo A
机构信息
Grupo de Investigación y Desarrollo en Bioingeniería, Facultad Regional Buenos Aires, Universidad Tecnológica Nacional, CONICET, Medrano 951, CP 1179, Buenos Aires, Argentina.
出版信息
ISRN Radiol. 2013 Jul 2;2013:602707. doi: 10.5402/2013/602707. eCollection 2013.
Abstract
About a decade ago, the first image-based computational hemodynamic studies of cerebral aneurysms were presented. Their potential for clinical applications was the result of a right combination of medical image processing, vascular reconstruction, and grid generation techniques used to reconstruct personalized domains for computational fluid and solid dynamics solvers and data analysis and visualization techniques. A considerable number of studies have captivated the attention of clinicians, neurosurgeons, and neuroradiologists, who realized the ability of those tools to help in understanding the role played by hemodynamics in the natural history and management of intracranial aneurysms. This paper intends to summarize the most relevant results in the field reported during the last years.
摘要
大约十年前,首次出现了基于图像的脑动脉瘤计算血流动力学研究。其临床应用潜力源于医学图像处理、血管重建和网格生成技术的恰当结合,这些技术用于为计算流体和固体动力学求解器重建个性化域,以及数据分析和可视化技术。大量研究吸引了临床医生、神经外科医生和神经放射科医生的关注,他们意识到这些工具有助于理解血流动力学在颅内动脉瘤自然病史和治疗中所起的作用。本文旨在总结过去几年该领域报道的最相关成果。
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