Add to ORKGQuantification of individual joint motion may help understanding the articular physiology and designing better treatments and devices. Measurements of such a motion are nowadays invasive or imprecise [1]. We present a numerical model that allows prediction of individual joint motion from the shape of articular surfaces. We hypothesize that the articulations are shaped by an adaptation process to optimally distribute contact loads [2-4]. Individual knee motion under physiological loads can thus be obtained by minimizing a measure of peak contact pressure such as joint congruence [5]: the more congruent the articular surfaces, the smaller the peak contact pressure. This concept was previously applied and validated for cadaveric tibiotalar [6]...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
none4siThe relationship between form and function of the carpal joint during functionally relevant t...
ABSTRACT: Impairment of the human neuromusculoskeletal system can lead to significant mobility limit...
Quantification of individual joint motion may help understanding the articular physiology and design...
none5noQuantification of individual joint motion may help understanding the articular physiology and...
OBJECTIVE: The knowledge of individual joint motion may help to understand the articular physiology ...
OBJECTIVE: The knowledge of individual joint motion may help to understand the articular physiology ...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
The primary aim of this study was to validate predictions of human knee-joint contact mechanics deri...
Segment-based musculoskeletal models allow the prediction of muscle, ligament and joint forces witho...
Obtaining tibio-femoral (TF) contact forces, ligament deformations and loads during daily life motor...
[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT AUTHOR'S REQUEST.] Better understanding of knee ...
none3noThe passive motion of the knee is the natural motion of the joint in unloaded conditions. It ...
The passive motion of the knee is the natural motion of the joint in unloaded conditions. It is the ...
The passive motion of the knee is the natural motion of the joint in unloaded conditions. It is the ...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
none4siThe relationship between form and function of the carpal joint during functionally relevant t...
ABSTRACT: Impairment of the human neuromusculoskeletal system can lead to significant mobility limit...
Quantification of individual joint motion may help understanding the articular physiology and design...
none5noQuantification of individual joint motion may help understanding the articular physiology and...
OBJECTIVE: The knowledge of individual joint motion may help to understand the articular physiology ...
OBJECTIVE: The knowledge of individual joint motion may help to understand the articular physiology ...
none3noOBJECTIVE: The knowledge of individual joint motion may help to understand the articular phys...
The primary aim of this study was to validate predictions of human knee-joint contact mechanics deri...
Segment-based musculoskeletal models allow the prediction of muscle, ligament and joint forces witho...
Obtaining tibio-femoral (TF) contact forces, ligament deformations and loads during daily life motor...
[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT AUTHOR'S REQUEST.] Better understanding of knee ...
none3noThe passive motion of the knee is the natural motion of the joint in unloaded conditions. It ...
The passive motion of the knee is the natural motion of the joint in unloaded conditions. It is the ...
The passive motion of the knee is the natural motion of the joint in unloaded conditions. It is the ...
Musculoskeletal(MS) models are useful to gain information on in vivo biomechanics that would be othe...
none4siThe relationship between form and function of the carpal joint during functionally relevant t...
ABSTRACT: Impairment of the human neuromusculoskeletal system can lead to significant mobility limit...