Item does not contain fulltextThe finite element (FE) method has become a common tool to evaluate peri-prosthetic micromotions in cementless total hip arthroplasty. Often, only the peak joint load and a selected number of muscle loads are applied to determine micromotions. Furthermore, the applied external constraints are simplified (diaphyseal fixation), resulting in a non-physiological situation. In this study, a scaled musculoskeletal model was used to extract a full set of muscle and hip joint loads occurring during a walking cycle. These loads were applied incrementally to an FE model to analyze micromotions. The relation between micromotions and external loads was investigated, and how micromotions during a full loading cycle compared...
peer reviewedAbstract Background Results of finite element (FE) analyses can give insight into mus...
Finite element analysis has been used extensively in the study of bone loading and implant performan...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
The finite element (FE) method has become a common tool to evaluate peri-prosthetic micromotions in ...
The most commonly reported failure modes of cementless hip stems are loosening and thigh pain; both ...
In total hip arthroplasty, micromotions at the implant—bone interface influence the long-term surviv...
The range of motion of artificial hip joint during human activities, measured from the postoperative...
Experimental testing of orthopaedic implants requires simplifications concerning load application an...
The most common reason for the aseptic loosening of cementless hip stem is the lack of primary stabi...
Abstract. Aseptic loosening is one of the major causes for revision surgery in hip arthroplasty. Thi...
Although prosthesis-bone micromotion is known to influence the stability of total hip replacement, n...
To investigate the accuracy of finite element (FE) models for pre-clinical testing of unbonded hip p...
The aim of this study was to investigate the influence of the muscle force contribution and loading ...
Using finite element analyses, we investigated which muscle groups acting around the hip-joint most ...
A numerical simulation model for observing the artificial hip joint movement with respect to the ran...
peer reviewedAbstract Background Results of finite element (FE) analyses can give insight into mus...
Finite element analysis has been used extensively in the study of bone loading and implant performan...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
The finite element (FE) method has become a common tool to evaluate peri-prosthetic micromotions in ...
The most commonly reported failure modes of cementless hip stems are loosening and thigh pain; both ...
In total hip arthroplasty, micromotions at the implant—bone interface influence the long-term surviv...
The range of motion of artificial hip joint during human activities, measured from the postoperative...
Experimental testing of orthopaedic implants requires simplifications concerning load application an...
The most common reason for the aseptic loosening of cementless hip stem is the lack of primary stabi...
Abstract. Aseptic loosening is one of the major causes for revision surgery in hip arthroplasty. Thi...
Although prosthesis-bone micromotion is known to influence the stability of total hip replacement, n...
To investigate the accuracy of finite element (FE) models for pre-clinical testing of unbonded hip p...
The aim of this study was to investigate the influence of the muscle force contribution and loading ...
Using finite element analyses, we investigated which muscle groups acting around the hip-joint most ...
A numerical simulation model for observing the artificial hip joint movement with respect to the ran...
peer reviewedAbstract Background Results of finite element (FE) analyses can give insight into mus...
Finite element analysis has been used extensively in the study of bone loading and implant performan...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...