AbstractContinuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate bone strength. These models are usually based on clinical CT scans and material properties assigned are chosen as isotropic based only on the density distribution. It has been shown, however, that trabecular bone elastic behavior is best described as orthotropic. Unfortunately, the use of orthotropic models in FE analysis derived from CT scans is hampered by the fact that the measurement of a trabecular orientation (fabric) is not possible from clinical CT images due to the low resolution of such images. In this study, we explore the concept of using a database (DB) of high-resolution bone models to derive the fabric information that i...
Including structural information of trabecular bone improves the prediction of bone strength and fra...
Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Ac...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
AbstractContinuum finite element (FE) models of bones have become a standard pre-clinical tool to es...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
AbstractContinuum finite element (FE) models of bones are commonly generated based on CT scans. Elem...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
Osteoporosis reduces bone mass and impairs the load-bearing capacity of the bone structure. This mic...
Low trauma fractures are amongst the most frequently encountered problems in the clinical assessment...
Low trauma fractures are amongst the most frequently encountered problems in the clinical assessment...
Hip fractures are one of the most severe consequences of osteoporosis. Compared to the clinical stan...
Continuum finite element (FE) models of bones are commonly generated based on CT scans. Element mate...
Including structural information of trabecular bone improves the prediction of bone strength and fra...
Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Ac...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
AbstractContinuum finite element (FE) models of bones have become a standard pre-clinical tool to es...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
AbstractContinuum finite element (FE) models of bones are commonly generated based on CT scans. Elem...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
Osteoporosis reduces bone mass and impairs the load-bearing capacity of the bone structure. This mic...
Low trauma fractures are amongst the most frequently encountered problems in the clinical assessment...
Low trauma fractures are amongst the most frequently encountered problems in the clinical assessment...
Hip fractures are one of the most severe consequences of osteoporosis. Compared to the clinical stan...
Continuum finite element (FE) models of bones are commonly generated based on CT scans. Element mate...
Including structural information of trabecular bone improves the prediction of bone strength and fra...
Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Ac...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...