不规则的解剖特征可以改变大动脉炎的血流动力学。

Q3 Medicine
Yu Zhu PhD , Xiao Yun Xu PhD , Justin Mason PhD , Saeed Mirsadraee MD
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引用次数: 0

摘要

目的:大动脉炎(TA)是一种难以治疗的疾病,因为既没有可靠的临床体征、实验室生物标志物,也没有单一的非侵入性成像技术可用于早期诊断和疾病活动监测。缺乏对TA主动脉血流动力学的了解。本研究旨在通过使用基于图像的计算流体动力学(CFD)模拟评估TA患者的血液动力学来填补这一空白。方法:11例TA患者纳入本研究。根据临床主动脉计算机断层摄影血管造影术或磁共振血管造影学研究重建患者特定的几何形状,并结合CFD模拟的生理边界条件。将关键解剖和血液动力学参数与对照组进行比较,对照组由18名年龄和性别匹配的无TA、主动脉健康的成年人组成。结果:与对照组相比,TA患者的主动脉速度显著较高(0.9 m/s[0.7,1.1 m/s]vs 0.6 m/s[0.5,0.7 m/s];P=0.002),最大时间平均壁剪切应力(14.2 Pa[9.8,20.9 Pa]vs 8.0 Pa[6.2,10.3 Pa];P=0.004),以及升主动脉和降主动脉之间的最大压降(36.9 mm Hg[29.049.3 mm Hg]vs 28.5 mm Hg[25.831.5 mm Hz];P=0.004)。TA患者的这些显著血液动力学变化可能是由异常解剖特征引起的,包括较小的主动脉弓直径(20.0 mm[13.823.3 mm]vs 25.2 mm[23.326.8 mm];P=0.003),主动脉上支直径(21.9毫米[18.524.6毫米]vs 25.7毫米[24.328.3毫米];P=0.003)和降主动脉直径(14.7毫米[12.216.8毫米]vs 22.5毫米[19.824.0毫米];P<.001)。结论:CFD分析揭示了TA患者主动脉的血液动力学变化。CFD技术结合标准成像评估在预测此类患者疾病进展方面的适用性将在未来的研究中进行探索。未来的具有结果相关性的大型队列研究也是有必要的。临床相关性:基于患者特异性计算流体动力学模拟,本回顾性研究显示,患有和不患有大动脉炎(TA)的患者主动脉血流动力学存在显著差异。据我们所知,这项研究首次评估了TA内的血液动力学条件,证明了计算流建模在捕捉不规则形态变化引起的异常血液动力学力(如高壁剪切应力)方面的潜力。未来,评估TA患者在腱前期的血液动力学参数,结合纵向计算流体动力学研究,可以更好地监测和管理TA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Irregular anatomical features can alter hemodynamics in Takayasu arteritis

Irregular anatomical features can alter hemodynamics in Takayasu arteritis

Irregular anatomical features can alter hemodynamics in Takayasu arteritis

Irregular anatomical features can alter hemodynamics in Takayasu arteritis

Objective

Takayasu arteritis (TA) is a difficult disease to deal with because there are neither reliable clinical signs, laboratory biomarkers, nor a single noninvasive imaging technique that can be used for early diagnosis and disease activity monitoring. Knowledge of aortic hemodynamics in TA is lacking. This study aimed to fill this gap by assessing hemodynamics in patients with TA using image-based computational fluid dynamics (CFD) simulations.

Methods

Eleven patients with TA were included in the present study. Patient-specific geometries were reconstructed from either clinical aortic computed tomography angiography or magnetic resonance angiography studies and coupled with physiological boundary conditions for CFD simulations. Key anatomical and hemodynamic parameters were compared with a control group consisting of 18 age- and sex-matched adults without TA who had healthy aortas.

Results

Compared with controls, patients with TA had significantly higher aortic velocities (0.9 m/s [0.7, 1.1 m/s] vs 0.6 m/s [0.5, 0.7 m/s]; P = .002), maximum time-averaged wall shear stress (14.2 Pa [9.8, 20.9 Pa] vs 8.0 Pa [6.2, 10.3 Pa]; P = .004), and maximum pressure drops between the ascending and descending aorta (36.9 mm Hg [29.0, 49.3 mm Hg] vs 28.5 mm Hg [25.8, 31.5 mm Hg]; P = .004). These significant hemodynamic alterations in patients with TA might result from abnormal anatomical features including smaller arch diameter (20.0 mm [13.8, 23.3 mm] vs 25.2 mm [23.3, 26.8 mm]; P = .003), supra-aortic branch diameters (21.9 mm [18.5, 24.6 mm] vs 25.7 mm [24.3, 28.3 mm]; P = .003) and descending aorta diameter (14.7 mm [12.2, 16.8 mm] vs 22.5 mm [19.8, 24.0 mm]; P < .001).

Conclusions

CFD analysis reveals hemodynamic changes in the aorta of patients with TA. The applicability of CFD technique coupled with standard imaging assessments in predicting disease progression of such patients will be explored in future studies. Future large cohort study with outcome correlation is also warranted.

Clinical Relevance

Based on patient-specific computational fluid dynamics simulations, the present retrospective study revealed significant difference in aortic hemodynamics between the patients with and without Takayasu arteritis (TA). To the best of our knowledge, this study is the first to evaluate hemodynamic conditions within TA, demonstrating the potential of computational flow modeling in capturing abnormal hemodynamic forces, such as high wall shear stress, resulted from irregular morphological changes. In the future, assessing the hemodynamic parameters within patients with TA during the prestenotic period, together with longitudinal computational fluid dynamics studies may allow better monitoring and management of TA.

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