Bozzetto Michela, Brambilla Paolo, Rota Stefano, Ene-Iordache Bogdan, Sironi Sandro, Remuzzi Giuseppe, Remuzzi Andrea
1 Department of Engineering and Applied Sciences, University of Bergamo, Dalmine, Italy.
2 USC Radiologia Diagnostica per Immagini 1, ASST Papa Giovanni XXIII-Universitá Milano-Bicocca, Bergamo, Italy.
Int J Artif Organs. 2018 Nov;41(11):714-722. doi: 10.1177/0391398818784207. Epub 2018 Jul 12.
: Autogenous arteriovenous fistula is the preferred vascular access for hemodialysis, but it has high rates of non-maturation and early failure due to vascular stenosis. Convincing evidence supports a key role of local hemodynamics in vascular remodeling, suggesting that unsteady and disturbed flow conditions may be related to stenosis formation in arteriovenous fistula. The purpose of our study was to explore the feasibility of coupling contrast-free magnetic resonance imaging and computational fluid dynamics in longitudinal studies to identify the role of local hemodynamic changes over time in inducing vessel wall remodeling in arteriovenous fistula.
: We acquired contrast-free magnetic resonance imaging of arm vasculature at 1 week and 6 weeks after arteriovenous fistula creation in a 72-year-old patient. We then generated three-dimensional models and evaluated lumen cross-sectional area of arteriovenous fistula limbs. We performed high-resolution computational fluid dynamics to evaluate changes in local hemodynamics over time.
: Our contrast-free magnetic resonance imaging protocol provided good quality images in a short scan duration. We observed a homogeneous dilatation in the proximal artery, while there was a more pronounced lumen dilatation in the venous outflow as compared to a limited dilatation in the juxta-anastomotic vein. Furthermore, we observed a slight stabilization of the flow pattern over time, suggesting that vascular outward remodeling accommodates the flow to a more helicoidally phenotype.
: Coupling contrast-free magnetic resonance imaging and high-resolution computational fluid dynamics represents a promising approach to shed more light in the mechanisms of vascular remodeling and can be used for prospective clinical investigations aimed at identifying critical hemodynamic factors contributing to arteriovenous fistula failure.
自体动静脉内瘘是血液透析首选的血管通路,但由于血管狭窄,其未成熟率和早期失败率较高。有力证据支持局部血流动力学在血管重塑中起关键作用,这表明不稳定和紊乱的血流状况可能与动静脉内瘘狭窄形成有关。我们研究的目的是探讨在纵向研究中结合无对比剂磁共振成像和计算流体动力学的可行性,以确定局部血流动力学随时间变化在诱导动静脉内瘘血管壁重塑中的作用。
我们对一名72岁患者在动静脉内瘘建立后1周和6周进行了手臂血管系统的无对比剂磁共振成像。然后我们生成三维模型并评估动静脉内瘘肢体的管腔横截面积。我们进行了高分辨率计算流体动力学分析以评估局部血流动力学随时间的变化。
我们的无对比剂磁共振成像方案在短扫描时间内提供了高质量图像。我们观察到近端动脉均匀扩张,而与吻合口附近静脉的有限扩张相比,静脉流出道的管腔扩张更为明显。此外,我们观察到血流模式随时间略有稳定,这表明血管向外重塑使血流适应了更螺旋状的表型。
结合无对比剂磁共振成像和高分辨率计算流体动力学是一种很有前景的方法,可更深入了解血管重塑机制,并可用于前瞻性临床研究,以确定导致动静脉内瘘失败的关键血流动力学因素。
