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Article type: Research Article
Authors: Grebe, R.a | Zuckermann, M.J.b
Affiliations: [a] Institute of Physiology, RWTH, Aachen, German Federal Republic | [b] Department of Physics, McGill University, Rutherford Building, 3600 University Street, Montréal, Québec H3A 2T8, Canada
Note: [] Accepted by: Editor J.C. Healy
Abstract: In a recent paper we examined the morphology of erythrocytes in terms of the mean mean curvature (MMC) of their cell membranes. A computer simulation of these shapes based on the different geometries showed that the MMC increased from the sphero–stomatocyte to the sphero–echinocyte via the discocyte. In this work we extend this analysis by using a numerical optimization method based on importance sampling and the principle of adiabatic cooling. The erythrocyte membrane is treated as a single closed fluid lamina exhibiting viscoelastic characteristics. The energy function of the lamina includes the following terms: (i) Curvature-elastic energy terms which depend on both local and global curvature. (ii) A term describing the compression elasticity of the lamina. (iii) A term which depends on the volume of the cell and which is related to the osmotic pressure across the membrane. In the simulation the cell is assumed to have axial symmetry and it can therefore be described by a finite set of conic sections. So far we have been able to obtain an energy minimum corresponding to a discocyte shape using a sphere as the initial configuration. Our results therefore imply that the well-known sequence of erythrocyte shapes could solely be governed by the above mentioned properties of an ideal fluid forming a closed singly connected lamina.
Keywords: Erythrocyte, morphology, membrane, curvature, viscoelasticity, fluid lamina, optimization
DOI: 10.3233/BIR-1990-27509
Journal: Biorheology, vol. 27, no. 5, pp. 735-746, 1990
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