Rheological investigation of neonatal double-lumen cannula with and without deformable erythrocytes

IF 2.2 4区 工程技术 Q2 MECHANICS Korea-Australia Rheology Journal Pub Date : 2023-10-04 DOI:10.1007/s13367-023-00073-y
Minhaj Ullah, Taqi Ahmad Cheema, Ni Aleksey, Muhammad Jamil, Faiq Ahmad, Hankwon Lim
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Abstract

The double-lumen cannula (DLC) is the most critical component of extracorporeal membrane oxygenation (ECMO) because of its narrow cross-section, thereby developing the highest shear stress in the entire ECMO circuit. To measure blood damage in a DLC, the Eulerian approach is generally used without contemplating exposure time or history of blood exposure to shear stresses. Alternatively, Lagrangian approach has also been recently employed for a Newtonian blood flow through a DLC, thereby leaving a research gap on the impact of variable shear rate in case of non-Newtonian blood flow. In the present study, the hemodynamic performance of DLC is investigated using different non-Newtonian models by applying Lagrangian approach. Moreover, the motion of RBC was tracked inside the cannula to predict its behavior during the motion. The results showed that the return lumen had higher pressure, velocity, and shear stress values than other parts of the DLC. In addition, recirculation was observed due to the mixing of blood coming from different inlets and found increase with increasing flow rate of blood. Moreover, it was found that the blood damage increased with increasing flow rate. There was more blood damage in the Newtonian model than in the other non-Newtonian models at higher flow rates. However, the Carreau model showed more blood damage at lower flow rates than the other models. The Cross model showed DLC’s higher efficacy in delivering oxygenated blood to the tricuspid outlet because it showed the least blood damage among all other models. It was also concluded that the efficacy of the DLC to deliver oxygenated blood to the tricuspid outlet decreases with increasing blood flow rate.

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新生儿双腔插管伴和不伴红细胞变形的流变学研究
双腔插管(DLC)是体外膜氧合(ECMO)最关键的组成部分,因为它的窄截面,从而在整个ECMO回路中产生最高的剪切应力。为了测量DLC中的血液损伤,通常使用欧拉方法而不考虑暴露时间或血液暴露于剪切应力的历史。另外,拉格朗日方法最近也被用于通过DLC的牛顿血液流动,因此在非牛顿血液流动情况下变剪切速率的影响方面留下了研究空白。本文采用拉格朗日方法研究了不同非牛顿模型下DLC的血流动力学性能。此外,红细胞在导管内的运动被跟踪,以预测其在运动过程中的行为。结果表明,与DLC的其他部分相比,回腔具有更高的压力、速度和剪切应力值。此外,由于来自不同入口的血液混合,观察到再循环,并发现随着血液流速的增加而增加。此外,血液损伤随血流速率的增加而增加。在高流速下,牛顿模型比其他非牛顿模型有更多的血液损伤。然而,在较低流速下,carcarau模型比其他模型显示出更多的血液损伤。Cross模型显示DLC在向三尖瓣出口处输送含氧血液方面具有更高的功效,因为它在所有其他模型中显示出最小的血液损伤。随着血流量的增加,DLC向三尖瓣出口处输送含氧血的效果降低。
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来源期刊
Korea-Australia Rheology Journal
Korea-Australia Rheology Journal 工程技术-高分子科学
CiteScore
2.80
自引率
0.00%
发文量
28
审稿时长
>12 weeks
期刊介绍: The Korea-Australia Rheology Journal is devoted to fundamental and applied research with immediate or potential value in rheology, covering the science of the deformation and flow of materials. Emphases are placed on experimental and numerical advances in the areas of complex fluids. The journal offers insight into characterization and understanding of technologically important materials with a wide range of practical applications.
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