The complex biomechanics and morphology of the femur proximal epiphysis are presented. This specific region in the human femur is characterized by high flexibility compared to that of other primates, since evolved lighter and longer due to the human vertical position and more balanced loading. The nature and fine morphology of the femur head and its structural behavior have been investigated. Isotropic and orthotropic trabecular structures, which are not present in other primates, have been associated with compression and tension areas of the femur head. These isotropic/orthotropic trabecular morphologies and allocations govern the stress and strain distribution in the overall proximal femur region. Use of femur proper biofidel modeling whi...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
Trabecular bone is an open-celled, porous material which plays a major role in load transmission in ...
Knowledge of the micromechanics of the human proximal femur is fundamental to improving clinical ass...
The complex biomechanics and morphology of the femur proximal epiphysis are presented. This specific...
The complex biomechanics and morphology of the femur proximal epiphysis are presented. This specific...
The complex biomechanics and morphologies of the femur proximal epiphysis are presented. The nature ...
Faithful modeling of the femur accounting for bone distribution and material orthotropic behavior is...
The human femur shows a high capacity to withstand external stresses and it is due to the mass distr...
In his model of the biomechanics of the proximal human femur, Friedrich Pauwels assumes a resultant ...
Biofidel femur Finite Element Models have been developed using specific combination of Computer Tomo...
Biofidel femur Models with finite elements were developed using a specific segmentation combination ...
Comparative StudyEvaluation StudiesThis is the final version of the article. Available from BioMed C...
In 1961, Evans and King documented the mechanical properties of trabecular bone from multiple locati...
Studies of femoral trabecular structure have shown that the orientation and volume of bone are assoc...
Experimental determination of the elastic modulus and ultimate strength of human tibial trabecular b...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
Trabecular bone is an open-celled, porous material which plays a major role in load transmission in ...
Knowledge of the micromechanics of the human proximal femur is fundamental to improving clinical ass...
The complex biomechanics and morphology of the femur proximal epiphysis are presented. This specific...
The complex biomechanics and morphology of the femur proximal epiphysis are presented. This specific...
The complex biomechanics and morphologies of the femur proximal epiphysis are presented. The nature ...
Faithful modeling of the femur accounting for bone distribution and material orthotropic behavior is...
The human femur shows a high capacity to withstand external stresses and it is due to the mass distr...
In his model of the biomechanics of the proximal human femur, Friedrich Pauwels assumes a resultant ...
Biofidel femur Finite Element Models have been developed using specific combination of Computer Tomo...
Biofidel femur Models with finite elements were developed using a specific segmentation combination ...
Comparative StudyEvaluation StudiesThis is the final version of the article. Available from BioMed C...
In 1961, Evans and King documented the mechanical properties of trabecular bone from multiple locati...
Studies of femoral trabecular structure have shown that the orientation and volume of bone are assoc...
Experimental determination of the elastic modulus and ultimate strength of human tibial trabecular b...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
Trabecular bone is an open-celled, porous material which plays a major role in load transmission in ...
Knowledge of the micromechanics of the human proximal femur is fundamental to improving clinical ass...