In vitro quantification of stent-graft behaviour during chimney thoracic endovascular aortic repair.

IF 0.9 4区医学 Q4 PERIPHERAL VASCULAR DISEASE

Vascular Pub Date : 2025-08-01 Epub Date: 2024-07-21 DOI:10.1177/17085381241260910

Jakub Kwiecinski, Raman Uberoi, Mohammed Hadi, Christopher P Cheng, Zhong You

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引用次数: 0

Abstract

ObjectiveTo quantify dynamic gutter phenomena and endograft deformations during double chimney thoracic endovascular aortic repair (ch-TEVAR) in a physiological model of the thoracic aorta subjected to pulsatile haemodynamic conditions.MethodsTwo in vitro procedures revascularizing the brachiocephalic trunk and left common carotid artery were performed representing both balloon-expandable (BE, Ankura-BeGraft) and self-expandable (SE, Ankura-Viabahn) double ch-TEVAR configurations. Retrospectively gated computed tomography (CT) was used to evaluate endograft behaviour. Device interactions were characterised according to gutter volume, gutter surface deviation, and endograft deformation (D-ratio) at end-diastolic and peak-systolic aortic pressure.ResultsUse of BE chimney grafts resulted in three times total gutter volume compared to SE chimney grafts. Gutter volumes were observed to vary dynamically between the end-diastolic and peak-systolic phases of the cardiac cycle, with the most substantial change associated with the BE configuration. Chimney graft deformations were dependent on device type, with SE devices exhibiting up to twice the deformation as BE devices. When adjacent, SE chimney grafts were observed to support each other, and thus tended towards a more consistently circular shape.ConclusionGutter and chimney graft behaviour were dependent on device type, and exhibited both spatial and temporal variability. This study emphasises notable differences between BE and SE double ch-TEVAR configurations which should be considered when evaluating risk of endoleak. The findings reported here also support the use of gated CT to better identify device-related complications with ch-TEVAR, and can be used in the design of next generation devices.

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烟囱式胸腔内主动脉修补术中支架移植物行为的体外量化。

目的在血流动力学条件不稳定的胸主动脉生理模型中，量化双烟囱胸腔内血管主动脉修复术（ch-TEVAR）过程中的动态沟现象和内移植物变形：方法：采用球囊扩张（BE，Ankura-BeGraft）和自体扩张（SE，Ankura-Viabahn）双囱式主动脉瓣成形术（ch-TEVAR）配置，对肱脑干和左侧颈总动脉进行了两次体外血管再通手术。回顾性门控计算机断层扫描（CT）用于评估内移植物的行为。根据沟槽体积、沟槽表面偏差以及舒张末期和收缩期主动脉压力峰值时的内移植物变形（D-ratio）来描述设备相互作用：结果：与 SE 型烟囱移植物相比，BE 型烟囱移植物的沟槽总体积是 SE 型烟囱移植物的三倍。据观察，在心动周期的舒张末期和收缩期峰值阶段，沟容量会发生动态变化，其中与 BE 配置相关的变化最大。烟囱移植物的变形取决于设备类型，SE 设备的变形量是 BE 设备的两倍。相邻时，观察到 SE 烟囱移植物相互支撑，因此趋向于更一致的圆形：排水沟和烟囱移植物的行为取决于设备类型，并表现出空间和时间上的可变性。这项研究强调了 BE 和 SE 双 ch-TEVAR 配置之间的显著差异，在评估内漏风险时应考虑这些差异。本文的研究结果还支持使用门控 CT 更好地识别与 ch-TEVAR 装置相关的并发症，并可用于下一代装置的设计。

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

Vascular 医学-外周血管病

CiteScore

2.30

自引率

9.10%

发文量

196

审稿时长

6-12 weeks

期刊介绍： Vascular provides readers with new and unusual up-to-date articles and case reports focusing on vascular and endovascular topics. It is a highly international forum for the discussion and debate of all aspects of this distinct surgical specialty. It also features opinion pieces, literature reviews and controversial issues presented from various points of view.