Add to ORKGThe tibiofemoral joint (TFJ) experiences large compressive articular contact loads during activities of daily living, caused by inertial, ligamentous, capsular, and most significantly musculotendon loads. Comparisons of relative contributions of individual muscles to TFJ contact loading between walking and sporting movements have not been previously examined. The purpose of this study was to determine relative contributions of individual lower-limb muscles to compressive articular loading of the medial and lateral TFJ during walking, running, and sidestepping. The medial and lateral compartments of the TFJ were loaded by a combination of medial and lateral muscles. During all gait tasks, the primary muscles loading the medial and lateral TF...
Joint inflammation, with consequent cartilage damage and pain, typically reduces functionality and a...
All data values have been aggregated for the different load and speed conditions.</p
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...
The tibiofemoral compressive forces experienced during functional activities are believed to be impo...
Running is typically performed at faster speeds than walking, and requires more muscular efforts. Be...
Large knee adduction moments during gait have been implicated as a mechanical factor related to the ...
© 2016 Dr. Prasanna SritharanIncreased cyclic compressive loading in the medial compartment of the ...
We combined computational modelling with experimental gait data to describe and explain load distrib...
Muscles are significant contributors to the high joint forces developed in the knee during human wal...
Rehabilitative body weight supported gait training aims at restoring walking function as a key eleme...
Muscular co-activation is a well-known mechanism for lower limb joint stabilization in both healthy ...
'In vivo' studies reported that the co-activation of gastrocnemius and quadriceps femoris (QF) muscl...
We explored the tibiofemoral contact forces and the relative contributions of muscles and external l...
INTRODUCTION: Chronic exposure to high tibiofemoral joint (TFJ) loads can be detrimental to knee joi...
Mean ± SD contribution of muscles to medial (top row) and lateral (bottom row) compartment tibiofemo...
Joint inflammation, with consequent cartilage damage and pain, typically reduces functionality and a...
All data values have been aggregated for the different load and speed conditions.</p
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...
The tibiofemoral compressive forces experienced during functional activities are believed to be impo...
Running is typically performed at faster speeds than walking, and requires more muscular efforts. Be...
Large knee adduction moments during gait have been implicated as a mechanical factor related to the ...
© 2016 Dr. Prasanna SritharanIncreased cyclic compressive loading in the medial compartment of the ...
We combined computational modelling with experimental gait data to describe and explain load distrib...
Muscles are significant contributors to the high joint forces developed in the knee during human wal...
Rehabilitative body weight supported gait training aims at restoring walking function as a key eleme...
Muscular co-activation is a well-known mechanism for lower limb joint stabilization in both healthy ...
'In vivo' studies reported that the co-activation of gastrocnemius and quadriceps femoris (QF) muscl...
We explored the tibiofemoral contact forces and the relative contributions of muscles and external l...
INTRODUCTION: Chronic exposure to high tibiofemoral joint (TFJ) loads can be detrimental to knee joi...
Mean ± SD contribution of muscles to medial (top row) and lateral (bottom row) compartment tibiofemo...
Joint inflammation, with consequent cartilage damage and pain, typically reduces functionality and a...
All data values have been aggregated for the different load and speed conditions.</p
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...