Literature DB >> 28044355

A Cellular Model of Shear-Induced Hemolysis.

Salman Sohrabi1, Yaling Liu1,2.   

Abstract

A novel model is presented to study red blood cell (RBC) hemolysis at cellular level. Under high shear rates, pores form on RBC membranes through which hemoglobin (Hb) leaks out and increases free Hb content of plasma leading to hemolysis. By coupling lattice Boltzmann and spring connected network models through immersed boundary method, we estimate hemolysis of a single RBC under various shear rates. First, we use adaptive meshing to find local strain distribution and critical sites on RBC membranes, and then we apply underlying molecular dynamics simulations to evaluate damage. Our approach comprises three sub-models: defining criteria of pore formation, calculating pore size, and measuring Hb diffusive flux out of pores. Our damage model uses information of different scales to predict cellular level hemolysis. Results are compared with experimental studies and other models in literature. The developed cellular damage model can be used as a predictive tool for hydrodynamic and hematologic design optimization of blood-wetting medical devices.
© 2017 International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.

Entities:  

Keywords:  Cellular model; Damage evaluation; Flow-induced hemolysis; Hemoglobin release; Red blood cell; Shear stress

Mesh:

Substances:

Year:  2017        PMID: 28044355      PMCID: PMC6274585          DOI: 10.1111/aor.12832

Source DB:  PubMed          Journal:  Artif Organs        ISSN: 0160-564X            Impact factor:   3.094


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