AbstractAccording to the literature, there are many mathematical relationships between density of the trabecular bone and mechanical properties obtained in macro-scale testing. In micro-scale, the measurements provide only the ranges of Young׳s modulus of trabeculae, but there are no experimentally tested relationships allowing the calculation of the distribution of Young׳s modulus of trabeculae within these experimental ranges. This study examined the applicability of relationships between bone density and mechanical properties obtained in macro-scale testing for the calculation of Young׳s modulus distribution in micro-scale. Twelve cubic specimens from eleven femoral heads were cut out and micro-computed tomography (micro-CT) scanned. A m...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
The tissue-level Young’s modulus of trabecular bone is important for detailed mechanical analysis of...
AbstractAccording to the literature, there are many mathematical relationships between density of th...
According to the literature, there are many mathematical relationships between density of the trabec...
The main goal of this study was to build a finite element model for trabecular bone from micro-compu...
Most standard methods to predict bone quality are merely based on apparent density measurements. How...
International audienceThis work aims to estimate the apparent Young's modulus of real human trabecul...
This work describes the preliminary results of an ongoing study, that aims to obtain relationships b...
This work describes the preliminary results of an ongoing study, that aims to obtain relationships b...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
International audienceTo determine intrinsic mechanical properties (elastic and failure) of trabecul...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
The tissue-level Young’s modulus of trabecular bone is important for detailed mechanical analysis of...
AbstractAccording to the literature, there are many mathematical relationships between density of th...
According to the literature, there are many mathematical relationships between density of the trabec...
The main goal of this study was to build a finite element model for trabecular bone from micro-compu...
Most standard methods to predict bone quality are merely based on apparent density measurements. How...
International audienceThis work aims to estimate the apparent Young's modulus of real human trabecul...
This work describes the preliminary results of an ongoing study, that aims to obtain relationships b...
This work describes the preliminary results of an ongoing study, that aims to obtain relationships b...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
International audienceTo determine intrinsic mechanical properties (elastic and failure) of trabecul...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
Stiffness and shear moduli of human trabecular bone may be analyzed in vivo by finite element (FE) a...
The tissue-level Young’s modulus of trabecular bone is important for detailed mechanical analysis of...