Add to ORKGWe present a continuum model of the coupling between cells and substrate that accounts for some of the observed substrate-stiffness dependence of cell properties. The cell is modeled as an elastic active gel, adapting recently developed continuum theories of active viscoelastic fluids. The coupling to the substrate enters as a boundary condition that relates the cell\u27s deformation field to local stress gradients. In the presence of activity, the coupling to the substrate yields spatially inhomogeneous contractile stresses and deformations in the cell and can enhance polarization, breaking the cell\u27s front-rear symmetry
AbstractMechanical cues like the rigidity of the substrate are main determinants for the decision-ma...
Numerous in-vitro studies have established that cells possess the ability to sense and react to thei...
7noNatural tissues and extracellular matrices (ECMs) are not purely elastic materials but exhibit di...
We present a continuum model of the coupling between cells and substrate that accounts for some of t...
AbstractCells sense the rigidity of their substrate; however, little is known about the physical var...
By forming attachments and contracting, cells are able to exert forces on their surroundings and inf...
Numerous experimental studies have established that cells can sense the stiffness of underlying subs...
Numerous experimental studies have established that cells can sense the stiffness of underlying subs...
Cell migration, a fundamental mechanobiological process, is highly sensitive to the biochemical and ...
Mesenchymal cell migration is an integral process in development and healing. The process is regulat...
The mechanical properties of the substrate upon which cells are cultured have been shown to influenc...
Mesenchymal cell migration is an integral process in development and healing. The process is regulat...
It is becoming increasingly clear that the mechanical properties of their environment play a crucial...
Cell interactions with extracellular matrix, such as cell adhesion and spreading, are crucial for ma...
A eukaryotic cell attaches and spreads on substrates, whether it is the extracellular matrix natural...
AbstractMechanical cues like the rigidity of the substrate are main determinants for the decision-ma...
Numerous in-vitro studies have established that cells possess the ability to sense and react to thei...
7noNatural tissues and extracellular matrices (ECMs) are not purely elastic materials but exhibit di...
We present a continuum model of the coupling between cells and substrate that accounts for some of t...
AbstractCells sense the rigidity of their substrate; however, little is known about the physical var...
By forming attachments and contracting, cells are able to exert forces on their surroundings and inf...
Numerous experimental studies have established that cells can sense the stiffness of underlying subs...
Numerous experimental studies have established that cells can sense the stiffness of underlying subs...
Cell migration, a fundamental mechanobiological process, is highly sensitive to the biochemical and ...
Mesenchymal cell migration is an integral process in development and healing. The process is regulat...
The mechanical properties of the substrate upon which cells are cultured have been shown to influenc...
Mesenchymal cell migration is an integral process in development and healing. The process is regulat...
It is becoming increasingly clear that the mechanical properties of their environment play a crucial...
Cell interactions with extracellular matrix, such as cell adhesion and spreading, are crucial for ma...
A eukaryotic cell attaches and spreads on substrates, whether it is the extracellular matrix natural...
AbstractMechanical cues like the rigidity of the substrate are main determinants for the decision-ma...
Numerous in-vitro studies have established that cells possess the ability to sense and react to thei...
7noNatural tissues and extracellular matrices (ECMs) are not purely elastic materials but exhibit di...