In Vivo Knee Contact Force Prediction Using Patient-Specific Musculoskeletal Geometry in a Segment-Based Computational Model.
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Functional electrical stimulation of gluteus medius reduces the medial joint reaction force of the knee during level walkingEffect of a gluteal activation warm-up on explosive exercise performance.Reliability and Minimal Detectable Change Values for Predictions of Knee Forces during Gait and Stair Ascent Derived from the FreeBody Musculoskeletal Model of the Lower Limb.Activation of biceps femoris long head reduces tibiofemoral anterior shear force and tibial internal rotation torque in healthy subjects.EMG-driven Forward Dynamics Simulation to Estimate in Vivo Joint Contact Forces During Normal, Smooth, and Bouncy Gait.Effects of an 8-week strength training intervention on tibiofemoral joint loading during landing: a cohort study.
P2860
In Vivo Knee Contact Force Prediction Using Patient-Specific Musculoskeletal Geometry in a Segment-Based Computational Model.
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name
In Vivo Knee Contact Force Pre ...... ent-Based Computational Model.
@en
type
label
In Vivo Knee Contact Force Pre ...... ent-Based Computational Model.
@en
prefLabel
In Vivo Knee Contact Force Pre ...... ent-Based Computational Model.
@en
P50
P356
P1476
In Vivo Knee Contact Force Pre ...... ment-Based Computational Model
@en
P2093
Chui Kit Tsang
Ziyun Ding
P304
P356
10.1115/1.4032412
P577
2016-02-01T00:00:00Z