A rigorous mathematical solution of the sphering of a red blood cell is obtained under the assumptions that the red cells is a fluid-filled shell and that it can swell into a perfect sphere in an appropriate hypotonic medium. The solution is valid for finite strain of the cell membrane provided that the membrane is isotropic, elastic and incompressible. The most general nonlinear elastic stress-strain law for the membrane in a state of generalized plane stress is used. A necessary condition for a red cell to be able to sphere is that its extensional stiffness follow a specific distribution over the membrane. This distribution is strongly influenced by the surface tension in the cell membrane. A unique relation exists between the extensional...
The membranes of human red blood cells (RBCs) are a composite of a fluid lipid bilayer and a triangu...
Observation of cell membrane buckling and cell folding in micropipette aspiration experiments was us...
The mechanics and elasticity of red blood cells (RBCs) determine the capability to deform of these c...
A rigorous mathematical solution of the sphering of a red blood cell is obtained under the assumptio...
The several widely different values of the elastic modulus of the human red blood cell membrane whic...
The two main proposals found in the literature for the stress-free shape of the red cell membrane ar...
A technique is described for measuring the stress required to rupture the red cell membrane. It requ...
Equations of mechanical equilibrium are applied to the erythrocyte membrane in the normal, hypotonic...
Assuming that the shape of red blood cells is controlled by the curvature elasticity of the surround...
AbstractThe deformation of an initially spherical vesicle of radius a with a permeable membrane unde...
Single human red blood cells suspended in buffered Ringer's solution were rapidly drawn, at recorded...
AbstractWe study the shapes of human red blood cells using continuum mechanics. In particular, we mo...
Red cells which adhere to a surface in a parallel plate flow channel are stretched when acted on by ...
Previous work demonstrated that human red cells can be drawn into cylindrical glass micropipettes of...
The technique of Mitchison and Swann (1954) was modified for determining the resistance to deformati...
The membranes of human red blood cells (RBCs) are a composite of a fluid lipid bilayer and a triangu...
Observation of cell membrane buckling and cell folding in micropipette aspiration experiments was us...
The mechanics and elasticity of red blood cells (RBCs) determine the capability to deform of these c...
A rigorous mathematical solution of the sphering of a red blood cell is obtained under the assumptio...
The several widely different values of the elastic modulus of the human red blood cell membrane whic...
The two main proposals found in the literature for the stress-free shape of the red cell membrane ar...
A technique is described for measuring the stress required to rupture the red cell membrane. It requ...
Equations of mechanical equilibrium are applied to the erythrocyte membrane in the normal, hypotonic...
Assuming that the shape of red blood cells is controlled by the curvature elasticity of the surround...
AbstractThe deformation of an initially spherical vesicle of radius a with a permeable membrane unde...
Single human red blood cells suspended in buffered Ringer's solution were rapidly drawn, at recorded...
AbstractWe study the shapes of human red blood cells using continuum mechanics. In particular, we mo...
Red cells which adhere to a surface in a parallel plate flow channel are stretched when acted on by ...
Previous work demonstrated that human red cells can be drawn into cylindrical glass micropipettes of...
The technique of Mitchison and Swann (1954) was modified for determining the resistance to deformati...
The membranes of human red blood cells (RBCs) are a composite of a fluid lipid bilayer and a triangu...
Observation of cell membrane buckling and cell folding in micropipette aspiration experiments was us...
The mechanics and elasticity of red blood cells (RBCs) determine the capability to deform of these c...