Numerical simulation and experimental validation of swirling flow in spiral vortex ventricular assist device.

Wong KK; Cheung SC; Yang W; Tu J

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Numerical simulation and experimental validation of swirling flow in spiral vortex ventricular assist device.

机译：涡旋心室辅助装置中旋流的数值模拟和实验验证。

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Spiral Vortex Ventricular Assist Device (SV-VAD) supports cardiac patients with refractory heart failure. Unfortunately, thrombus formation and risk of stroke due to flow complications may lead to aggravated conditions. The hemodynamics of a continuous flow in the ventricular chamber of a SV-VAD can be analyzed using numerical simulation. Particle image velocimetry and laser Doppler anemometry are utilized for validating the simulated spiral flow in a transparent acrylic SV-VAD replica based on its cross-sectional averaged axial and tangential velocities. After validation, the relationship between swirling flow and blood cell damage is established by evaluating flow effect on thrombosis due to high shear stress. Based on our analysis, stagnancy of the flow within the SV-VAD is insignificant and its low shear stress minimizes hemolysis.

机译：螺旋涡流心室辅助装置（SV-VAD）支持患有顽固性心力衰竭的心脏病患者。不幸的是，由于血流并发症而形成的血栓和中风的危险可能导致病情加重。可以使用数值模拟分析SV-VAD的心室腔室中连续流动的血液动力学。粒子图像测速仪和激光多普勒风速仪用于基于横截面平均轴向和切向速度验证透明丙烯酸SV-VAD复制品中的模拟螺旋流。验证后，通过评估流动对高剪切应力引起的血栓形成的影响，建立了旋流与血细胞损害之间的关系。根据我们的分析，SV-VAD内的流动停滞不明显，并且其低剪切应力最大程度地减少了溶血。

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《The international journal of artificial organs》 |2010年第12期|共12页
作者
Wong KK; Cheung SC; Yang W; Tu J;
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中图分类生物医学工程;
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Numerical simulation and experimental validation of swirling flow in spiral vortex ventricular assist device.

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