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Article type: Research Article
Authors: Reinhart, W.H.b | Huang, C.a | Vayo, M.a | Norwich, G.a | Chien, S.a | Skalak, R.a
Affiliations: [a] Department of Applied Mechanics and Engineering Sciences, Bioengineering University of California, San Diego La Jolla, CA 92093-0412, U.S.A. | [b] Depanment of Internal Medicine, University of Bern, Inselspital, CH-3010, Bern, Switzerland
Note: [] Accepted by: Editor H.L. Goldsmith
Abstract: The geometric features of red blood cells in narrow channels in vivo and in vitro were studied by electron microscopy. In rabbit myocardial capillaries about half of the red cells were folded. In polycarbonate filters with pore diameters of 2.2–4.5 μm approximately one third of the trapped red blood cells were folded. The frequency of folding did not depend on the applied pressure, which ranged from 0.1 to 8.0 cm H2O. The folding of the red blood cells in filter pores was used to estimate the bending stiffness of the membrane. An analysis based on the large deformation theory of bending of an elastic sheet was developed. Using pressures of 0.2 and 1.0 cm H2O, the bending stiffness of human red cell membranes was estimated to be approximately 2.4–11.6 × 10−12 dyn-cm, which is in good agreement with other methods. A limiting radius of curvature of about 85 nm was found at higher pressures.
Keywords: Erythrocyte, Red cell membrane, Bending modulus, Cell filtration
DOI: 10.3233/BIR-1991-28605
Journal: Biorheology, vol. 28, no. 6, pp. 537-549, 1991
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