<div><p>Image-based mechanical modeling of the complex micro-structure of human bone has shown promise as a non-invasive method for characterizing bone strength and fracture risk <em>in vivo</em>. In particular, elastic moduli obtained from image-derived micro-finite element (μFE) simulations have been shown to correlate well with results obtained by mechanical testing of cadaveric bone. However, most existing large-scale finite-element simulation programs require significant computing resources, which hamper their use in common laboratory and clinical environments. In this work, we theoretically derive and computationally evaluate the resources needed to perform such simulations (in terms of computer memory and computation time), which are...
In order to help the assessment of trabecular bone diseases and complement dual X-Ray absorptiometry...
Micro-finite element (microFE) models based on high-resolution images have enabled the calculation o...
Abstract: The study of the mechanical behaviour of trabecular bone has extensively employed micro-le...
Image-based mechanical modeling of the complex micro-structure of human bone has shown promise as a ...
Coupling recent imaging capabilities with microstructural finite el-ement (µFE) analysis offers a po...
Prevention of osteoporotic fractures requires accurate methods to detect the increase in bone fragil...
The recent advances in microarchitectural bone imaging are disclosing the possibility to assess both...
In this study, we investigate if finite element (FE) analyses of human trabecular bone architecture ...
Knowledge of the whole-bone mechanics at micro-structural level can improve our understanding of age...
OBJECTIVES: Finite-element-models (FEM) are a promising technology to predict bone strength and frac...
With the current advances in bone imaging and progress in numerical techniques, the micro structural...
International audienceTo determine intrinsic mechanical properties (elastic and failure) of trabecul...
In the paper, a method for the direct image-based creation of the finite element model from images i...
In order to help the assessment of trabecular bone diseases and complement dual X-Ray absorptiometry...
Micro-finite element (microFE) models based on high-resolution images have enabled the calculation o...
Abstract: The study of the mechanical behaviour of trabecular bone has extensively employed micro-le...
Image-based mechanical modeling of the complex micro-structure of human bone has shown promise as a ...
Coupling recent imaging capabilities with microstructural finite el-ement (µFE) analysis offers a po...
Prevention of osteoporotic fractures requires accurate methods to detect the increase in bone fragil...
The recent advances in microarchitectural bone imaging are disclosing the possibility to assess both...
In this study, we investigate if finite element (FE) analyses of human trabecular bone architecture ...
Knowledge of the whole-bone mechanics at micro-structural level can improve our understanding of age...
OBJECTIVES: Finite-element-models (FEM) are a promising technology to predict bone strength and frac...
With the current advances in bone imaging and progress in numerical techniques, the micro structural...
International audienceTo determine intrinsic mechanical properties (elastic and failure) of trabecul...
In the paper, a method for the direct image-based creation of the finite element model from images i...
In order to help the assessment of trabecular bone diseases and complement dual X-Ray absorptiometry...
Micro-finite element (microFE) models based on high-resolution images have enabled the calculation o...
Abstract: The study of the mechanical behaviour of trabecular bone has extensively employed micro-le...