Sun Zhonghua, Chaichana Thanapong
Discipline of Medical Imaging, Department of Imaging and Applied Physics, Curtin University of Technology, GPO Box, U1987, Perth, WA, Australia.
Cardiovasc Intervent Radiol. 2009 Jul;32(4):647-57. doi: 10.1007/s00270-009-9539-1. Epub 2009 Mar 17.
The purpose of the study was to investigate the hemodynamic effect of stent struts (wires) on renal arteries in patients with abdominal aortic aneurysms (AAAs) treated with suprarenal stent-grafts. Two sample patients with AAA undergoing multislice CT angiography pre- and postsuprarenal fixation of stent-grafts were selected for inclusion in the study. Eight juxtarenal models focusing on the renal arteries were generated from the multislice CT datasets. Four types of configurations of stent wires crossing the renal artery ostium were simulated in the segmented aorta models: a single wire crossing centrally, a single wire crossing peripherally, a V-shaped wire crossing centrally, and multiple wires crossing peripherally. The blood flow pattern, flow velocity, wall pressure, and wall shear stress at the renal arteries pre- and post-stent-grafting were analyzed and compared using a two-way fluid structure interaction analysis. The stent wire thickness was simulated with a diameter of 0.4, 1.0, and 2.0 mm, and hemodynamic analysis was performed at different cardiac cycles. The interference of stent wires with renal blood flow was mainly determined by the thickness of stent wires and the type of configuration of stent wires crossing the renal ostium. The flow velocity was reduced by 20-30% in most of the situations when the stent wire thickness increased to 1.0 and 2.0 mm. Of the four types of configuration, the single wire crossing centrally resulted in the highest reduction of flow velocity, ranging from 21% to 28.9% among three different wire thicknesses. Wall shear stress was also dependent on the wire thickness, which decreased significantly when the wire thickness reached 1.0 and 2.0 mm. In conclusion, our preliminary study showed that the hemodynamic effect of suprarenal stent wires in patients with AAA treated with suprarenal stent-grafts was determined by the thickness of suprarenal stent wires. Research findings in our study are useful for follow-up of patients treated with suprarenal stent-grafts to ensure long-term safety of the suprarenal fixation.
本研究的目的是调查肾上腹主动脉瘤(AAA)患者接受肾上支架型人工血管治疗时,支架支柱(金属丝)对肾动脉的血流动力学影响。选取2例接受肾上支架型人工血管固定术前、后多层CT血管造影的AAA患者纳入研究。从多层CT数据集中生成8个聚焦于肾动脉的肾周模型。在分段主动脉模型中模拟了4种穿过肾动脉开口的支架金属丝构型:单根金属丝中央穿过、单根金属丝周边穿过、V形金属丝中央穿过以及多根金属丝周边穿过。使用双向流固耦合分析对支架型人工血管植入术前、后的肾动脉血流模式、流速、壁压力和壁面剪应力进行分析和比较。模拟的支架金属丝厚度分别为0.4、1.0和2.0 mm,并在不同心动周期进行血流动力学分析。支架金属丝对肾血流的干扰主要取决于金属丝厚度以及穿过肾开口的金属丝构型类型。当支架金属丝厚度增加到1.0和2.0 mm时,在大多数情况下流速降低20% - 30%。在4种构型中,单根金属丝中央穿过导致的流速降低最大,在3种不同金属丝厚度下降低幅度为21%至28.9%。壁面剪应力也取决于金属丝厚度,当金属丝厚度达到1.0和2.0 mm时显著降低。总之,我们的初步研究表明,接受肾上支架型人工血管治疗的AAA患者,肾上支架金属丝的血流动力学影响取决于肾上支架金属丝的厚度。我们研究中的发现有助于对接受肾上支架型人工血管治疗的患者进行随访,以确保肾上固定的长期安全性。