Add to ORKGAbstract The traction exerted by a cell on a planar deformable substrate can be in-directly obtained on the basis of the displacement field of the underlying layer. The usual methodology used to address this inverse problem is based on the exploitation of the Green tensor of the linear elasticity problem in a half space (Boussinesq problem), coupled with a minimization algorithm under force penalization. A possible alternative strategy is to exploit an adjoint equation, obtained on the basis of a suitable minimiza-tion requirement. The resulting system of coupled elliptic partial differential equations is applied here to determine the force field per unit surface generated by T24 tumor cells on a polyacrylamide substrate. The shear stress o...
Advances in methods for determining the forces exerted by cells while they migrate are essential for...
International audienceThis paper deals with the Traction Force Microscopy (TFM) problem. It consists...
AbstractForce traction microscopy is an inversion method that allows one to obtain the stress field ...
International audienceThe traction exerted by a cell on a planar deformable substrate can be in- dir...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
International audienceTraction forces exerted by cells on soft elastic substrates are important for ...
This paper deals with the Traction Force Microscopy (TFM) problem. It consists in obtainin...
Tumor cell migration is a very important phenomenon occurring during the formation of metastases, an...
Advances in methods for determining the forces exerted by cells while they migrate are essential for...
International audienceThis paper deals with the Traction Force Microscopy (TFM) problem. It consists...
AbstractForce traction microscopy is an inversion method that allows one to obtain the stress field ...
International audienceThe traction exerted by a cell on a planar deformable substrate can be in- dir...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The traction exerted by a cell on a planar deformable substrate can be in- directly obtained on the ...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
The evaluation of the traction exerted by a cell on a planar substrate is here considered as an inve...
International audienceTraction forces exerted by cells on soft elastic substrates are important for ...
This paper deals with the Traction Force Microscopy (TFM) problem. It consists in obtainin...
Tumor cell migration is a very important phenomenon occurring during the formation of metastases, an...
Advances in methods for determining the forces exerted by cells while they migrate are essential for...
International audienceThis paper deals with the Traction Force Microscopy (TFM) problem. It consists...
AbstractForce traction microscopy is an inversion method that allows one to obtain the stress field ...