Hemodynamics of Cerebral Aneurysms: Connecting Medical Imaging and Biomechanical Analysis.

IF 12.8 1区 工程技术 Q1 ENGINEERING, BIOMEDICAL
Vitaliy L Rayz, Aaron A Cohen-Gadol
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引用次数: 24

Abstract

In the last two decades, numerous studies have conducted patient-specific computations of blood flow dynamics in cerebral aneurysms and reported correlations between various hemodynamic metrics and aneurysmal disease progression or treatment outcomes. Nevertheless, intra-aneurysmal flow analysis has not been adopted in current clinical practice, and hemodynamic factors usually are not considered in clinical decision making. This review presents the state of the art in cerebral aneurysm imaging and image-based modeling, discussing the advantages and limitations of each approach and focusing on the translational value of hemodynamic analysis. Combining imaging and modeling data obtained from different flow modalities can improve the accuracy and fidelity of resulting velocity fields and flow-derived factors that are thought to affect aneurysmal disease progression. It is expected that predictive models utilizing hemodynamic factors in combination with patient medical history and morphological data will outperform current risk scores and treatment guidelines. Possible future directions include novel approaches enabling data assimilation and multimodality analysis of cerebral aneurysm hemodynamics.

脑动脉瘤的血流动力学:连接医学成像和生物力学分析。
在过去的二十年中,许多研究对脑动脉瘤的血流动力学进行了患者特异性计算,并报道了各种血流动力学指标与动脉瘤疾病进展或治疗结果之间的相关性。然而,在目前的临床实践中尚未采用动脉瘤内血流分析,在临床决策中通常不考虑血流动力学因素。本文综述了脑动脉瘤成像和基于图像的建模的最新进展,讨论了每种方法的优点和局限性,并重点介绍了血流动力学分析的翻译价值。结合从不同流动模式获得的成像和建模数据可以提高所得速度场和被认为影响动脉瘤疾病进展的流动衍生因素的准确性和保真度。预计利用血流动力学因素结合患者病史和形态学数据的预测模型将优于当前的风险评分和治疗指南。可能的未来方向包括新的方法,使数据同化和多模态分析脑动脉瘤血流动力学。
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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来源期刊
Annual Review of Biomedical Engineering
Annual Review of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
18.80
自引率
0.00%
发文量
14
期刊介绍: Since 1999, the Annual Review of Biomedical Engineering has been capturing major advancements in the expansive realm of biomedical engineering. Encompassing biomechanics, biomaterials, computational genomics and proteomics, tissue engineering, biomonitoring, healthcare engineering, drug delivery, bioelectrical engineering, biochemical engineering, and biomedical imaging, the journal remains a vital resource. The current volume has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license.
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