Add to ORKGAnalysis of the behaviour of the pelvis is done with a 3D finite element model of a real human pelvis. The behaviour of the pelvis with and without prosthesis is simulated for standing on two legs and during walking. Results of these analyses are used as boundary conditions in the analysis of the load transfer with different fixation methods of the prosthesis to the bone. The gained knowledge is used to make recommendations for the design and manufacturing of a carbon fiber reinforced pelvic prosthesis
A prosthetic socket used by a lower limb amputee should accommodate the patient’s geometry and biom...
The paper presents the results of a preliminary study on the structural analysis of the pelvic girdl...
Abstract. Bioengineering concerns many important problems apply to human body. The pelvic joint and ...
The aim of this paper is to investigate and compare the stress distribution of a reconstructed pelvi...
Pelvic fractures are complex, debilitating injuries associated with high mortality rates and a signi...
The finite element (FE) model of the pelvic joint is helpful for clinical diagnosis and treatment of...
In the human musculoskeletal system, the pelvis functions as a crucial transfer point for upper body...
To conduct a biomechanical study of the whole reconstructed pelvic ring using a modular hemipelvic e...
The current method for prosthetic socket design is a lengthy and costly process which is highly depe...
Finite Element Method (FEM) provides a powerful tool to study mechanical behavior of prostheses as w...
Background: Finite element analysis was used to compare fixation methods for double pelvic osteotomy...
The pelvis is a key part of the human musculoskeletal system and serious fracture can greatly incapa...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
The use of finite element analysis (FEA) to investigate the biomechanics of anatomical systems criti...
This study fulfills the need for a dedicated pelvis testing setup that is widely accepted with physi...
A prosthetic socket used by a lower limb amputee should accommodate the patient’s geometry and biom...
The paper presents the results of a preliminary study on the structural analysis of the pelvic girdl...
Abstract. Bioengineering concerns many important problems apply to human body. The pelvic joint and ...
The aim of this paper is to investigate and compare the stress distribution of a reconstructed pelvi...
Pelvic fractures are complex, debilitating injuries associated with high mortality rates and a signi...
The finite element (FE) model of the pelvic joint is helpful for clinical diagnosis and treatment of...
In the human musculoskeletal system, the pelvis functions as a crucial transfer point for upper body...
To conduct a biomechanical study of the whole reconstructed pelvic ring using a modular hemipelvic e...
The current method for prosthetic socket design is a lengthy and costly process which is highly depe...
Finite Element Method (FEM) provides a powerful tool to study mechanical behavior of prostheses as w...
Background: Finite element analysis was used to compare fixation methods for double pelvic osteotomy...
The pelvis is a key part of the human musculoskeletal system and serious fracture can greatly incapa...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
The use of finite element analysis (FEA) to investigate the biomechanics of anatomical systems criti...
This study fulfills the need for a dedicated pelvis testing setup that is widely accepted with physi...
A prosthetic socket used by a lower limb amputee should accommodate the patient’s geometry and biom...
The paper presents the results of a preliminary study on the structural analysis of the pelvic girdl...
Abstract. Bioengineering concerns many important problems apply to human body. The pelvic joint and ...