首例人体病例系列中8例早期患者主动脉弓模块化内分支支架移植物的血流动力学数值模拟

Hemodynamic numerical simulation of aortic arch modular inner branched stent-graft in eight early patients from the first-in-human case series.

作者信息

Zhu Yating, Li Fen, Zhang Hongpeng, Song Hui, Ma Xiaodan, Cao Long, Zhang Wenjun, Guo Wei

机构信息

Department of Vascular Surgery, First Medical Center of Chinese People's Liberation Army General Hospital, Beijing, China.

College of Mechanical and Vehicle Engineering, Taiyuan University of Technology, Taiyuan, China.

出版信息

Front Cardiovasc Med. 2022 Aug 30;9:981546. doi: 10.3389/fcvm.2022.981546. eCollection 2022.

DOI:10.3389/fcvm.2022.981546

PMID:36110414

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9468476/

Abstract

BACKGROUND

The modular inner branched stent-graft (MIBSG) (WeFlow-Arch™) is an emerging device for challenging aortic arch pathologies. Hemodynamic numerical simulation is conducive to predicting long-term outcomes as well as optimizing the stent-graft design.

OBJECTIVE

This study aims to analyze the hemodynamic characteristics of the MIBSG devices based on numerical simulation analyses.

METHODS

From June 2019 to June 2021, MIBSGs were utilized in eight cases. Numerical simulation analyses of branch perfusion and indicators including the time-averaged wall shear stress, oscillatory shear index, and relative residence time were performed.

RESULTS

Lesions involved Zone 1 ( = 2), Zone 2 ( = 4), and Zone 3 ( = 2). Branched stent-grafts were deployed in the innominate artery and left common carotid artery ( = 5) or in the innominate artery and left subclavian artery ( = 3). The hemodynamic change in common was increased perfusion in the descending aorta and left common carotid artery. Half of the patients had increased cerebral perfusion of 8.7% at most, and the other half of the patients showed a reduction of 5.3% or less. Case 3 was considered to have acquired the greatest improvement in hemodynamic features.

CONCLUSION

The MIBSG showed improved hemodynamic features in most cases. The design of the MIBSG could be partly modified to acquire better hemodynamic performance.

摘要

背景

模块化内部分支支架型人工血管（MIBSG）（WeFlow-Arch™）是一种用于治疗复杂主动脉弓病变的新型器械。血流动力学数值模拟有助于预测长期疗效并优化支架型人工血管的设计。

目的

本研究旨在基于数值模拟分析来剖析MIBSG器械的血流动力学特征。

方法

2019年6月至2021年6月期间，8例患者使用了MIBSG。进行了分支灌注的数值模拟分析以及包括时间平均壁面切应力、振荡切变指数和相对停留时间等指标的分析。

结果

病变累及1区（n = 2）、2区（n = 4）和3区（n = 2）。分支支架型人工血管植入无名动脉和左颈总动脉（n = 5）或无名动脉和左锁骨下动脉（n = 3）。共同的血流动力学变化是降主动脉和左颈总动脉灌注增加。半数患者脑灌注最多增加8.7%，另一半患者脑灌注减少5.3%或更低。病例3被认为在血流动力学特征方面改善最大。

结论

多数情况下，MIBSG显示出改善的血流动力学特征。MIBSG的设计可部分修改以获得更好的血流动力学性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b888/9468476/587e7b7cb24b/fcvm-09-981546-g0001.jpg

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首例人体病例系列中8例早期患者主动脉弓模块化内分支支架移植物的血流动力学数值模拟

Hemodynamic numerical simulation of aortic arch modular inner branched stent-graft in eight early patients from the first-in-human case series.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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