Objectives: Clinical problems of the knee joint are often related to the patella. Despite this, patella biomechanics has not been investigated to a great extent dynamically but mainly in passive or quasi-static conditions. The objective of this study was to document patella kinematics in different loading conditions and motor tasks, using a well defined methodology.status: publishe
Patella stabilizer muscle response and patellar kinematics were evaluated in 19 women with anterior ...
The purpose of this study is to create an accurate experimental database for the passive (in vitro)f...
PURPOSE: The objectives of this in vitro project were to compare the dynamic three-dimensional patel...
The fundamental objectives of patello-femoral joint biomechanics include the determination of its ki...
Opto-electronic cinematic analysis has already proven useful in the investigation of patients with a...
The development of a good quantitative concept, a model of passive human knee-joint behavior is the ...
The aim of this study is to investigate the biomechanics of the patellofemoral joint in an in-vitro...
This study involved the development and testing of a system for the simultaneous in vitro measuremen...
Patellar maltracking may result in many patellofemoral joint (PFJ) disorders in the natural and repl...
OBJECTIVE: To develop a method of measuring the magnitude, direction and point of application of the...
Abstract Background Changing the kinematic behaviour of patellar movement could be one of the reason...
Dysfunction of the knee extensor mechanism resulting in patellofemoral pain (PFP)presents a signific...
Mechanical-based treatment strategies for patellofemoral osteoarthritis (OA) have had limited succes...
Patella stabilizer muscle response and patellar kinematics were evaluated in 19 women with anterior ...
The purpose of this study is to create an accurate experimental database for the passive (in vitro)f...
PURPOSE: The objectives of this in vitro project were to compare the dynamic three-dimensional patel...
The fundamental objectives of patello-femoral joint biomechanics include the determination of its ki...
Opto-electronic cinematic analysis has already proven useful in the investigation of patients with a...
The development of a good quantitative concept, a model of passive human knee-joint behavior is the ...
The aim of this study is to investigate the biomechanics of the patellofemoral joint in an in-vitro...
This study involved the development and testing of a system for the simultaneous in vitro measuremen...
Patellar maltracking may result in many patellofemoral joint (PFJ) disorders in the natural and repl...
OBJECTIVE: To develop a method of measuring the magnitude, direction and point of application of the...
Abstract Background Changing the kinematic behaviour of patellar movement could be one of the reason...
Dysfunction of the knee extensor mechanism resulting in patellofemoral pain (PFP)presents a signific...
Mechanical-based treatment strategies for patellofemoral osteoarthritis (OA) have had limited succes...
Patella stabilizer muscle response and patellar kinematics were evaluated in 19 women with anterior ...
The purpose of this study is to create an accurate experimental database for the passive (in vitro)f...
PURPOSE: The objectives of this in vitro project were to compare the dynamic three-dimensional patel...