分流装置内皮化异常风险的数值评估：临床数据驱动的数值研究

Numerical Assessment of the Risk of Abnormal Endothelialization for Diverter Devices: Clinical Data Driven Numerical Study.

作者信息

Tikhvinskii Denis, Kuianova Julia, Kislitsin Dmitrii, Orlov Kirill, Gorbatykh Anton, Parshin Daniil

机构信息

Lavrentyev Institute of Hydrodynamics SB RAS, Lavrentiev Avenue 15, 630090 Novosibirsk, Russia.

Neurosurgery Department, Meshalkin National Medical Research Center, 630055 Novosibirsk, Russia.

出版信息

J Pers Med. 2022 Apr 18;12(4):652. doi: 10.3390/jpm12040652.

DOI:10.3390/jpm12040652

PMID:35455768

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9025183/

Abstract

Numerical modeling is an effective tool for preoperative planning. The present work is devoted to a retrospective analysis of neurosurgical treatments for the occlusion of cerebral aneurysms using flow-diverters and hemodynamic factors affecting stent endothelization. Several different geometric approaches have been considered for virtual flow-diverters deployment. A comparative analysis of hemodynamic parameters as a result of computational modeling has been carried out basing on the four clinical cases: one successful treatment, one with no occlusion and two with in stent stenosis. For the first time, a quantitative assessment of both: the limiting magnitude of shear stresses that are necessary for the occurrence of in stent stenosis (MaxWSS > 1.23) and for conditions in which endothelialization is insufficiently active and occlusion of the cervical part of the aneurysm does not occur (MaxWSS < 1.68)—has been statistacally proven (p < 0.01).

摘要

数值模拟是术前规划的有效工具。目前的工作致力于对使用血流导向装置治疗脑动脉瘤闭塞的神经外科治疗方法以及影响支架内皮化的血流动力学因素进行回顾性分析。已考虑了几种不同的几何方法用于虚拟血流导向装置的部署。基于四个临床病例进行了计算模拟结果的血流动力学参数比较分析：一个成功治疗病例、一个未闭塞病例和两个支架内狭窄病例。首次从统计学上证明了对以下两者的定量评估：支架内狭窄发生所需的剪切应力极限值（最大壁面切应力>1.23）以及内皮化不够活跃且动脉瘤颈部未发生闭塞的情况（最大壁面切应力<1.68）（p<0.01）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f101/9025183/c08da68df3db/jpm-12-00652-g0A1.jpg

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分流装置内皮化异常风险的数值评估：临床数据驱动的数值研究

Numerical Assessment of the Risk of Abnormal Endothelialization for Diverter Devices: Clinical Data Driven Numerical Study.

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