A Mathematical Model for Shear‐Induced Hemolysis
- 1 July 1995
- journal article
- Published by Wiley in Artificial Organs
- Vol. 19 (7) , 576-582
- https://doi.org/10.1111/j.1525-1594.1995.tb02384.x
Abstract
The time-varying history of stress exposure within a rotary blood pump makes it difficult to arrive at a quantifiable design criterion for predicting cell trauma-tization. Constant stress experiments have revealed that there is a threshold stress level above which damage to blood cells occurs depending upon the time of exposure. The shear stress history experienced by cells within a rotary blood pump, however, is highly unsteady. In order to better predict cell trauma under these realistic conditions, a mathematical damage model based on a concept of “damage accumulation” has been developed. This model is evaluated within the context of red cell trauma. Experimental results support the hypothesis that the rate of damage accumulation increases nonlinearly with the stress level as well as the age of the cell.Keywords
This publication has 16 references indexed in Scilit:
- A Fluid Dynamic Analysis of a Rotary Blood Pump for Design ImprovementArtificial Organs, 2008
- Mechanical Blood Traumatization by Tubing and Throttles in In Vitro Pump Tests: Experimental Results and Implications for Hemolysis TheoryArtificial Organs, 1993
- Erythrocyte Aging: Physical and Chemical Membrane ChangesGerontology, 1991
- Estimation of Shear Stress-related Blood Damage in Heart Valve Prostheses - in Vitro Comparison of 25 Aortic ValvesThe International Journal of Artificial Organs, 1990
- Damage mechanicsPublished by Cambridge University Press (CUP) ,1990
- Flow-induced trauma to blood cells.Circulation Research, 1977
- The Biological Life of the Red CellPublished by Elsevier ,1975
- Deformation and haemolysis of red cells in shear flowProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1974
- Red Blood Cell Damage by Shear StressBiophysical Journal, 1972
- SOME MECHANICAL EFFECTS THAT INFLUENCE HEMOLYSISAsaio Journal, 1965