Add to ORKGThis paper presents a finite element simulation of a human lower limb in a full extension after a knee joint arthroplasty. Aside a total knee endoprosthesis Medin Modulár (size 76, right knee) provided by Medin Orthopedics, a.s., Czech Republic, two long bones, femur and tibia were used. As for a load, more than 30 most important muscles of the lower limb and 8 knee ligaments were disigned. Compared with our former results, this model gives reduced stress and contact pressures values which were given by more realistic ankle and hip joint definition. Their distributions correspond our former findings
Abstract Background Results of finite element (FE) analyses can give insight into musculoskeletal di...
This thesis project provides a method to simulate the internal mechanical properties of the undeform...
Excessive joint stress, often caused by knee malalignment, contributes to osteoarthritis (OA) progre...
The paper deals with a simulation by means of finite method of a natural lower limb after a knee joi...
Biomechanical numerical models in orthopedic research are currently becoming more and more frequent,...
One of the most important trends in engineering biomechanics is experimental and numerical analysis ...
The care and rehabilitation of individuals after lower limb amputation presents a substantial and gr...
In this study, the load bearing function was analyzed in both the standing posture and low-flexion u...
PubMed ID: 25212118Background The aim of this paper was to design a finite element model for a hi...
In 2005, the number of lower limb amputees was 1.6 million in the USA and is projected to reach 3.6 ...
The focus of this paper was on finite element analysis of a PROSPON oncological knee endoprosthesis....
This project examined the stress distribution on the femur and tibia portion of the knee joint using...
Custom-made knee prostheses have been widely used to reconstruct the function of the lower limb in b...
The paper presents Finite Elements Method numerical analysis of strength of friction pairs most ofte...
Three dimensional model of human knee were developed to clarify the causes of knee joint injuries su...
Abstract Background Results of finite element (FE) analyses can give insight into musculoskeletal di...
This thesis project provides a method to simulate the internal mechanical properties of the undeform...
Excessive joint stress, often caused by knee malalignment, contributes to osteoarthritis (OA) progre...
The paper deals with a simulation by means of finite method of a natural lower limb after a knee joi...
Biomechanical numerical models in orthopedic research are currently becoming more and more frequent,...
One of the most important trends in engineering biomechanics is experimental and numerical analysis ...
The care and rehabilitation of individuals after lower limb amputation presents a substantial and gr...
In this study, the load bearing function was analyzed in both the standing posture and low-flexion u...
PubMed ID: 25212118Background The aim of this paper was to design a finite element model for a hi...
In 2005, the number of lower limb amputees was 1.6 million in the USA and is projected to reach 3.6 ...
The focus of this paper was on finite element analysis of a PROSPON oncological knee endoprosthesis....
This project examined the stress distribution on the femur and tibia portion of the knee joint using...
Custom-made knee prostheses have been widely used to reconstruct the function of the lower limb in b...
The paper presents Finite Elements Method numerical analysis of strength of friction pairs most ofte...
Three dimensional model of human knee were developed to clarify the causes of knee joint injuries su...
Abstract Background Results of finite element (FE) analyses can give insight into musculoskeletal di...
This thesis project provides a method to simulate the internal mechanical properties of the undeform...
Excessive joint stress, often caused by knee malalignment, contributes to osteoarthritis (OA) progre...