Discrepancies in finite-element model predictions of bone strength may be attributed to the simplified modeling of bone as an isotropic structure due to the resolution limitations of clinical-level Computed Tomography (CT) data. The aim of this study is to calculate the preferential orientations of bone (the principal directions) and the extent to which bone is deposited more in one direction compared to another (degree of anisotropy). Using 100 femoral trabecular samples, the principal directions and degree of anisotropy were calculated with a Gradient Structure Tensor (GST) and a Sobel Structure Tensor (SST) using clinical-level CT. The results were compared against those calculated with the gold standard Mean-Intercept-Length (MIL) fabri...
With an aging population lower back pain is a growing concern amongst many people. Recent developmen...
The use of modelling techniques that combine CT data and bone tissue micromechanics is spreading in ...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
The aim of this study was to develop a GST-based methodology for accurately measuring the degree of ...
No accepted methodology exists to assess trabecular bone orientation from clinical CT scans. The aim...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
In the present paper we addressed the problem of whether the information about the structural anisot...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
AbstractContinuum finite element (FE) models of bones have become a standard pre-clinical tool to es...
Most standard methods to predict bone quality are merely based on apparent density measurements. How...
Although there are now many theories describing empirical relationships between strength properties ...
Abstract. Image-based finite element (FE) modeling of human bones has been increasingly applied as a...
Trabecular bone is a porous material most often found at the end of the long bones where it acts to ...
Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Ac...
Trabecular bone is an open-celled, porous material which plays a major role in load transmission in ...
With an aging population lower back pain is a growing concern amongst many people. Recent developmen...
The use of modelling techniques that combine CT data and bone tissue micromechanics is spreading in ...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
The aim of this study was to develop a GST-based methodology for accurately measuring the degree of ...
No accepted methodology exists to assess trabecular bone orientation from clinical CT scans. The aim...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
In the present paper we addressed the problem of whether the information about the structural anisot...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
AbstractContinuum finite element (FE) models of bones have become a standard pre-clinical tool to es...
Most standard methods to predict bone quality are merely based on apparent density measurements. How...
Although there are now many theories describing empirical relationships between strength properties ...
Abstract. Image-based finite element (FE) modeling of human bones has been increasingly applied as a...
Trabecular bone is a porous material most often found at the end of the long bones where it acts to ...
Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Ac...
Trabecular bone is an open-celled, porous material which plays a major role in load transmission in ...
With an aging population lower back pain is a growing concern amongst many people. Recent developmen...
The use of modelling techniques that combine CT data and bone tissue micromechanics is spreading in ...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...