一种用于血液动力学模拟的现实动静脉透析移植物模型。

A realistic arteriovenous dialysis graft model for hemodynamic simulations.

机构信息

Department of Biomedical Engineering, Cardiovascular Research Institute Maastricht, Maastricht, the Netherlands.

Department of Biomedical Engineering, Eindhoven University of Technology, Eindhoven, the Netherlands.

出版信息

PLoS One. 2022 Jul 21;17(7):e0269825. doi: 10.1371/journal.pone.0269825. eCollection 2022.

DOI:10.1371/journal.pone.0269825

PMID:35862379

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9302782/

Abstract

OBJECTIVE

The hemodynamic benefit of novel arteriovenous graft (AVG) designs is typically assessed using computational models that assume highly idealized graft configurations and/or simplified boundary conditions representing the peripheral vasculature. The objective of this study is to evaluate whether idealized AVG models are suitable for hemodynamic evaluation of new graft designs, or whether more realistic models are required.

METHODS

An idealized and a realistic, clinical imaging based, parametrized AVG geometry were created. Furthermore, two physiological boundary condition models were developed to represent the peripheral vasculature. We assessed how graft geometry (idealized or realistic) and applied boundary condition models of the peripheral vasculature (physiological or distal zero-flow) impacted hemodynamic metrics related to AVG dysfunction.

RESULTS

Anastomotic regions exposed to high WSS (>7, ≤40 Pa), very high WSS (>40 Pa) and highly oscillatory WSS were larger in the simulations using the realistic AVG geometry. The magnitude of velocity perturbations in the venous segment was up to 1.7 times larger in the realistic AVG geometry compared to the idealized one. When applying a (non-physiological zero-flow) boundary condition that neglected blood flow to and from the peripheral vasculature, we observed large regions exposed to highly oscillatory WSS. These regions could not be observed when using either of the newly developed distal boundary condition models.

CONCLUSION

Hemodynamic metrics related to AVG dysfunction are highly dependent on the geometry and the distal boundary condition model used. Consequently, the hemodynamic benefit of a novel graft design can be misrepresented when using idealized AVG modelling setups.

摘要

目的

新型动静脉移植物（AVG）设计的血流动力学益处通常通过计算模型进行评估，这些模型假设了高度理想化的移植物构型和/或简化的边界条件来代表周围血管系统。本研究的目的是评估理想化的 AVG 模型是否适合新移植物设计的血流动力学评估，或者是否需要更现实的模型。

方法

创建了理想化和基于临床成像的现实、参数化的 AVG 几何形状。此外，还开发了两种生理边界条件模型来代表周围血管系统。我们评估了移植物几何形状（理想化或现实）和应用的周围血管系统边界条件模型（生理或远端零流量）如何影响与 AVG 功能障碍相关的血流动力学指标。

结果

在使用现实 AVG 几何形状的模拟中，吻合区域暴露于高壁切应力（>7，≤40 Pa）、非常高壁切应力（>40 Pa）和高度振荡壁切应力的区域更大。与理想化的几何形状相比，在现实 AVG 几何形状中静脉段的速度扰动幅度高达 1.7 倍。当应用忽略来自周围血管系统的血流的（非生理零流量）边界条件时，我们观察到暴露于高度振荡壁切应力的大区域。当使用新开发的任何一种远端边界条件模型时，都无法观察到这些区域。

结论

与 AVG 功能障碍相关的血流动力学指标高度依赖于所使用的几何形状和远端边界条件模型。因此，当使用理想化的 AVG 建模设置时，可能会对新型移植物设计的血流动力学益处产生误解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6784/9302782/ffc8000cdadb/pone.0269825.g001.jpg

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一种用于血液动力学模拟的现实动静脉透析移植物模型。

A realistic arteriovenous dialysis graft model for hemodynamic simulations.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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