Soft tissue deformation is often modelled using incompressible nonlin-ear elasticity, with solutions computed using the finite element method. There are a range of options available when using the finite element method, in particular, the polynomial degree of the basis functions used for interpolating position and pressure, and the type of element making up the mesh. We investigate the effect of these choices on the accuracy of the computed solution, using a selection of model problems motivated by typical deformations seen in soft tissue modelling. We set up model problems with discontinuous material properties (as is the case for the breast), steeply changing gradients in the body force (as found in con-1 tracting cardiac tissue), and dis...
Abstract Modern developments of biomedical applications demand a better understanding of mechanical ...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...
Soft tissue deformation is often modelled using incompressible nonlinear elasticity, with solutions ...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
Soft tissue deformation is often modelled using incompressible nonlinear elasticity, with solutions ...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
An accurate biomechanical model, coupled with an accurate solution of the governing differential equ...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
Abstract − There are a number of algorithms for interactively modeling deformable objects, such as s...
Previous approaches to modelling the large deformation of breast tissue, as occurs, e.g. in imaging ...
This study seeks to simulate soft tissue behavior with a custom finite element analysis. It is the e...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
Deep tissue injury (DTI) is a severe form of pressure ulcer where tissue damage starts in deep tissu...
Abstract Modern developments of biomedical applications demand a better understanding of mechanical ...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...
Soft tissue deformation is often modelled using incompressible nonlinear elasticity, with solutions ...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
Soft tissue deformation is often modelled using incompressible nonlinear elasticity, with solutions ...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
An accurate biomechanical model, coupled with an accurate solution of the governing differential equ...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
Abstract − There are a number of algorithms for interactively modeling deformable objects, such as s...
Previous approaches to modelling the large deformation of breast tissue, as occurs, e.g. in imaging ...
This study seeks to simulate soft tissue behavior with a custom finite element analysis. It is the e...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
Deep tissue injury (DTI) is a severe form of pressure ulcer where tissue damage starts in deep tissu...
Abstract Modern developments of biomedical applications demand a better understanding of mechanical ...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...
The complex geometry of cancellous bone tissue makes it difficult to generate finite element (FE) mo...