We explored the tibiofemoral contact forces and the relative contributions of muscles and external loads to those contact forces during various gait tasks. Second, we assessed the relationships between external gait measures and contact forces. A calibrated electromyography-driven neuromusculoskeletal model estimated the tibiofemoral contact forces during walking (1.44 ± 0.22 m s−1), running (4.38 ± 0.42 m s−1) and sidestepping (3.58 ± 0.50 m s−1) in healthy adults (n = 60, 27.3 ± 5.4 years, 1.75 ± 0.11 m, and 69.8 ± 14.0 kg). Contact forces increased from walking (∼1–2.8 BW) to running (∼3–8 BW), sidestepping had largest maximum total (8.47 ± 1.57 BW) and lateral contact forces (4.3 ± 1.05 BW), while running had largest maximum medial cont...
This study explored the influence of three model calibration methods on predicted knee contact and l...
The tibiofemoral joint (TFJ) experiences large compressive articular contact loads during activities...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
PURPOSE: To investigate differences in ACL reconstructed (ACLR) and healthy individuals in terms of ...
Large knee adduction moments during gait have been implicated as a mechanical factor related to the ...
Biofeedback assisted rehabilitation and intervention technologies have the potential to modify clini...
Objective: The external knee adduction moment (EAM) is often considered a surrogate measure for the ...
The prevalence of running as a form of exercise and the necessity of walking for simple locomotion o...
Background: Inappropriate tibiofemoral joint contact loading during gait is thought to contribute to...
Running is typically performed at faster speeds than walking, and requires more muscular efforts. Be...
© 2016 by ASME. Though walking impairments are prevalent in society, clinical treatments are often i...
This study investigates whether use of subject-specific muscle synergies can improve optimization pr...
ABSTRACT: The external knee adduction torque has been proposed as a surrogate measure for medial com...
Net muscle moments (NMMs) have been used as proxy measures of joint loading, but musculoskeletal mod...
Subject-specific musculoskeletal models and computational walking models in general have come a long...
This study explored the influence of three model calibration methods on predicted knee contact and l...
The tibiofemoral joint (TFJ) experiences large compressive articular contact loads during activities...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
PURPOSE: To investigate differences in ACL reconstructed (ACLR) and healthy individuals in terms of ...
Large knee adduction moments during gait have been implicated as a mechanical factor related to the ...
Biofeedback assisted rehabilitation and intervention technologies have the potential to modify clini...
Objective: The external knee adduction moment (EAM) is often considered a surrogate measure for the ...
The prevalence of running as a form of exercise and the necessity of walking for simple locomotion o...
Background: Inappropriate tibiofemoral joint contact loading during gait is thought to contribute to...
Running is typically performed at faster speeds than walking, and requires more muscular efforts. Be...
© 2016 by ASME. Though walking impairments are prevalent in society, clinical treatments are often i...
This study investigates whether use of subject-specific muscle synergies can improve optimization pr...
ABSTRACT: The external knee adduction torque has been proposed as a surrogate measure for medial com...
Net muscle moments (NMMs) have been used as proxy measures of joint loading, but musculoskeletal mod...
Subject-specific musculoskeletal models and computational walking models in general have come a long...
This study explored the influence of three model calibration methods on predicted knee contact and l...
The tibiofemoral joint (TFJ) experiences large compressive articular contact loads during activities...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...