血管内动脉瘤修补术后烟囱突出长度对腹主动脉支架移植血液动力学的影响

IF 1.7 4区医学 Q3 ENGINEERING, BIOMEDICAL

Medical Engineering & Physics Pub Date : 2024-11-19 DOI:10.1016/j.medengphy.2024.104256

Moshe Brand , Hila Ben-Gur , Moshe Halak

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引用次数: 0

摘要

导言腹主动脉瘤是一项重大的临床挑战，尤其是位于肾动脉附近的腹主动脉瘤。在肾下腹主动脉瘤的病例中，主支架移植物可能会堵塞肾动脉，破坏血液供应。本研究利用计算流体动力学（CFD）研究了烟囱支架移植物突出长度对支架移植物血液动力学的影响。研究分析了两种烟囱配置，烟囱分别突出主支架移植物上部 10 毫米和 30 毫米。结果 CFD 分析表明这两种配置的血液动力学参数没有实质性差异。在主支架移植物上方突出 30 毫米的烟囱是一种可行的选择，有助于减少手术时间和患者风险。

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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The effect of the length of chimney's protrusion on the hemodynamics of abdominal aorta stent graft after endovascular aneurysm repair

Introduction

Abdominal aortic aneurysms present a significant clinical challenge, particularly when located near the renal arteries. In cases of infra-renal abdominal aortic aneurysms, the main stent graft may occlude the renal arteries, disrupting blood supply. To prevent this, two 'chimney' stent grafts can be implanted to maintain renal artery perfusion.

Method

This study investigates the impact of chimney stent graft protrusion length on the hemodynamics of stent graft using computational fluid dynamics (CFD). Two chimney configurations were analyzed, with the chimney protruding 10 and 30 mm above the upper part of the main stent graft. Key hemodynamic parameters were compared, including wall shear stress, blood flow velocity, and pathlines.

Results

The CFD analysis showed no substantial differences in hemodynamic parameters between these configurations.

Conclusions

The findings indicate negligible hemodynamic differences between the two chimney configurations. A chimney that protrudes 30 mm above the main stent graft is a viable option and may help reduce procedure time and patient risk.

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来源期刊

Medical Engineering & Physics 工程技术-工程：生物医学

CiteScore

4.30

自引率

4.50%

发文量

172

审稿时长

3.0 months

期刊介绍： Medical Engineering & Physics provides a forum for the publication of the latest developments in biomedical engineering, and reflects the essential multidisciplinary nature of the subject. The journal publishes in-depth critical reviews, scientific papers and technical notes. Our focus encompasses the application of the basic principles of physics and engineering to the development of medical devices and technology, with the ultimate aim of producing improvements in the quality of health care.Topics covered include biomechanics, biomaterials, mechanobiology, rehabilitation engineering, biomedical signal processing and medical device development. Medical Engineering & Physics aims to keep both engineers and clinicians abreast of the latest applications of technology to health care.