The fundamental objectives of patello-femoral joint biomechanics include the determination of its kinematics and of its dynamics, as a function of given control parameters like knee flexion or applied muscle forces. On the one hand, patellar tracking provides quantitative information about the joint's stability under given loading conditions, whereas patellar force analyses can typically indicate pathological stress distributions associated for instance with abnormal tracking. The determination of this information becomes especially relevant when facing the problem of evaluating surgical procedures in terms of standard (i.e. non-pathological) knee functionality. Classical examples of such procedures include total knee replacement (TKR) and ...
A finite element analysis (FEA) modeling technique has been developed to characterize how varying th...
Introduction: In this study the optimal angle of fixation or splintage for partially weight bearing ...
OBJECTIVE: The objective of this study is to analyze the biomechanics of the patellar component foll...
The fundamental objectives of patello-femoral joint biomechanics include the determination of its ki...
The physiologic forces are essential for proper functioning and longevity of the patellofemoral join...
The patellofemoral joint (PFJ) plays an important role in the extensor mechanism of the knee. Severa...
The biomechanical investigation of the entire knee joint is essential in understanding the joint fun...
The aim of this study is to investigate the biomechanics of the patellofemoral joint in an in-vitro...
A biarticulating two-dimensional model of the patellofemoral joint has been developed using geometri...
Objectives: Clinical problems of the knee joint are often related to the patella. Despite this, pate...
There is an increasing demand for total knee replacements (TKR). Young patients are placing increasi...
The management of knee instability is a complex problem in orthopedic surgery. To comprehensively as...
Nowadays, instances of anterior knee pain and patellar fracture are more and more widely considered ...
In finite-element (FE) models of the knee joint, patella is often omitted. We investigated the impor...
A finite element analysis (FEA) modeling technique has been developed to characterize how varying th...
Introduction: In this study the optimal angle of fixation or splintage for partially weight bearing ...
OBJECTIVE: The objective of this study is to analyze the biomechanics of the patellar component foll...
The fundamental objectives of patello-femoral joint biomechanics include the determination of its ki...
The physiologic forces are essential for proper functioning and longevity of the patellofemoral join...
The patellofemoral joint (PFJ) plays an important role in the extensor mechanism of the knee. Severa...
The biomechanical investigation of the entire knee joint is essential in understanding the joint fun...
The aim of this study is to investigate the biomechanics of the patellofemoral joint in an in-vitro...
A biarticulating two-dimensional model of the patellofemoral joint has been developed using geometri...
Objectives: Clinical problems of the knee joint are often related to the patella. Despite this, pate...
There is an increasing demand for total knee replacements (TKR). Young patients are placing increasi...
The management of knee instability is a complex problem in orthopedic surgery. To comprehensively as...
Nowadays, instances of anterior knee pain and patellar fracture are more and more widely considered ...
In finite-element (FE) models of the knee joint, patella is often omitted. We investigated the impor...
A finite element analysis (FEA) modeling technique has been developed to characterize how varying th...
Introduction: In this study the optimal angle of fixation or splintage for partially weight bearing ...
OBJECTIVE: The objective of this study is to analyze the biomechanics of the patellar component foll...