简化型血泵中的瞬态应力和应变溶血估计。
Transient stress-based and strain-based hemolysis estimation in a simplified blood pump.
机构信息
Chair for Computational Analysis of Technical Systems (CATS), RWTH Aachen University, 52056 Aachen, Germany.
出版信息
Int J Numer Method Biomed Eng. 2013 Oct;29(10):1148-60. doi: 10.1002/cnm.2576. Epub 2013 Aug 6.
Abstract
We compare two approaches to numerical estimation of mechanical hemolysis in a simplified blood pump model. The stress-based model relies on the instantaneous shear stress in the blood flow, whereas the strain-based model uses an additional tensor equation to relate distortion of red blood cells to a shear stress measure. We use the newly proposed least-squares finite element method (LSFEM) to prevent negative concentration fields and show a stable and volume preserving LSFEM for the tensor equation. Application of both models to a simplified centrifugal blood pump at three different operating conditions shows that the stress-based model overestimates the rate of hemolysis. The strain-based model is found to deliver lower hemolysis rates because it incorporates a more detailed description of biophysical phenomena into the simulation process.
摘要
我们比较了两种数值估计简化血泵模型中机械溶血的方法。基于应力的模型依赖于血流中的瞬时剪切应力,而基于应变的模型使用附加张量方程将红细胞的变形与剪切应力度量联系起来。我们使用新提出的最小二乘有限元方法 (LSFEM) 来防止负浓度场,并展示了用于张量方程的稳定和体积保持的 LSFEM。将这两种模型应用于三种不同工作条件下的简化离心泵血泵,结果表明基于应力的模型高估了溶血率。基于应变的模型被发现可降低溶血率,因为它将更详细的生物物理现象描述纳入了模拟过程。
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