Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
about
The pathophysiology of osteoarthritis: a mechanical perspective on the knee jointPredictive simulation generates human adaptations during loaded and inclined walkingReal-time tracking of knee adduction moment in patients with knee osteoarthritis.Gait retraining to reduce the knee adduction moment through real-time visual feedback of dynamic knee alignment.Individual muscle contributions to the axial knee joint contact force during normal walkingComputational assessment of combinations of gait modifications for knee osteoarthritis rehabilitation.Effect of increased pushoff during gait on hip joint forcesImplicit methods for efficient musculoskeletal simulation and optimal control.Gait modification to treat knee osteoarthritis.Knee joint forces: prediction, measurement, and significanceIntensive Gait Training for Older Adults with Symptomatic Knee Osteoarthritis.Association of slower walking speed with incident knee osteoarthritis-related outcomes.Flexing computational muscle: modeling and simulation of musculotendon dynamics.Effective gait patterns for offloading the medial compartment of the kneeLimitations of parallel global optimization for large-scale human movement problems.Muscle synergies may improve optimization prediction of knee contact forces during walking.Conservative biomechanical strategies for knee osteoarthritis.Review and perspective: neuromechanical considerations for predicting muscle activation patterns for movementEffect of exercise and gait retraining on knee adduction moment in people with knee osteoarthritis.Lower extremity EMG-driven modeling of walking with automated adjustment of musculoskeletal geometry.Biofeedback for gait retraining based on real-time estimation of tibiofemoral joint contact forces.Development of a Subject-Specific Foot-Ground Contact Model for Walking.Decreased knee adduction moment does not guarantee decreased medial contact force during gait.Are external knee load and EMG measures accurate indicators of internal knee contact forces during gait?Update on grand challenge competition to predict in vivo knee loads.Neuromusculoskeletal Model Calibration Significantly Affects Predicted Knee Contact Forces for Walking.A probabilistic approach to quantify the impact of uncertainty propagation in musculoskeletal simulations.Design of Optimal Treatments for Neuromusculoskeletal Disorders using Patient-Specific Multibody Dynamic Models.Adjusting kinematics and kinetics in a feedback-controlled toe walking model.Hybrid models of the neuromusculoskeletal system improve subject-specificity.Six-week gait retraining program reduces knee adduction moment, reduces pain, and improves function for individuals with medial compartment knee osteoarthritis.Kinematic analysis of over-determinate biomechanical systems.Predicting sagittal plane biomechanics that minimize the axial knee joint contact force during walking.Workflow assessing the effect of gait alterations on stresses in the medial tibial cartilage - combined musculoskeletal modelling and finite element analysis.Medial knee loading is altered in subjects with early osteoarthritis during gait but not during step-up-and-over task.Subject-specific toe-in or toe-out gait modifications reduce the larger knee adduction moment peak more than a non-personalized approach.Evaluation of a patient-specific cost function to predict the influence of foot path on the knee adduction torque during gait.Estimation of accuracy of patient-specific musculoskeletal modelling: case study on a post polio residual paralysis subject.A computationally efficient optimisation-based method for parameter identification of kinematically determinate and over-determinate biomechanical systems.Real-time knee adduction moment feedback for gait retraining through visual and tactile displays.
P2860
Q27012457-9476FC22-3206-4FD9-B572-9F3186FC331FQ27310976-0D540340-591D-4B87-97CE-13215C3C77C2Q33769855-04EC7E6F-68C0-4C80-A860-A49F3E6F4D2DQ34037313-E23B63D8-CDB7-4CD1-B662-F41001B1CC4BQ34238746-DC4E62D5-365F-4D89-B655-060BF3DF4895Q34391955-4E9DE22E-F185-4B49-B7F5-EC9FC8443BF8Q34759263-7DA2DE5C-7F17-4507-866F-C890338A7059Q35553080-362B90B5-CC64-4E20-9DC7-D9FE0BFB6146Q35809746-D70CEA2F-ACAD-451B-8373-DBC510C120C8Q35883156-FD76778F-6619-4621-B201-1231404FF8D1Q36053163-AED152ED-0D75-41F3-BD3A-2C7EBA927ADBQ36063028-9CBB2BE2-8FB3-4BD7-938B-45B0786FE0BBQ36995382-25F96055-A260-4A17-82D0-46D4A5D4E431Q37286181-3C6DC506-CEB5-448B-A2BF-C4C83992BD45Q37376006-16208179-553C-4374-8A06-9846D01D89C6Q37401777-50553D7E-F4EC-4ABC-857F-2F832C00CA57Q37834960-2BFEA218-63A2-4BAA-A8C5-88093C65B5B7Q38048703-71EEC7DD-E7A0-4C16-9CAD-7CED1BC6993DQ38181376-E39B6B04-4BF3-4F0D-AEDF-B4FC6E6FB41FQ38682343-C1D65208-F131-49F9-A2C6-18AC4F213872Q38823304-99F4851E-5248-4629-BC10-CBA68A7E1152Q39630571-6651455B-DF4D-4B36-87DB-401DBB3E7063Q39838066-B756A2D7-7B1B-4464-A376-23641EF22F6AQ39910614-E94720ED-BBC8-4EEC-9F15-0B2A8A3273F2Q41144569-D6390EA2-4391-496B-A29B-E8090CAFAEBDQ42578427-ECF746C4-0A98-4DCE-AF5C-EF5DD6749020Q42736044-E4A75D05-1ABA-4745-9251-832ED151E951Q42837093-7E7E0EAE-AFC0-41B1-AE3A-770C8002F6C5Q42861129-4BB56071-F8B0-4932-AD2B-40CADE9D2D8DQ43246432-3BEE4D43-351B-455C-80C0-7BA1A5708564Q43691204-FE11FC52-1BC7-4308-9619-C80A2ED9372AQ44186481-0088D510-A70A-44D3-AF15-B31EC80B3BEFQ45749870-B4EF4043-0A5B-4001-A584-24E7F425545FQ47101661-CA255345-245E-4EFB-BC9F-88138098830BQ47123082-D6F21160-54A5-4DEE-9A43-1ADC8A5BA7A1Q47315406-AE94D96F-A1A3-4066-A6B8-833F65724576Q50886684-D66549F5-866E-4891-8B2A-60F72C2CF4F1Q51579115-3E836FCF-08C2-46EB-8033-BC5B1A6C4B9DQ51799992-A56E1B73-79B7-45A2-A641-FD383BBFC170Q51877753-968E3FF3-BE2D-4452-880C-7C99B613EB45
P2860
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
description
2007 nî lūn-bûn
@nan
2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@ast
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@en
type
label
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@ast
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@en
prefLabel
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@ast
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@en
P2093
P2860
P356
P1476
Design of patient-specific gait modifications for knee osteoarthritis rehabilitation.
@en
P2093
Jeffrey A Reinbolt
Kelly L Rooney
Kim H Mitchell
Terese L Chmielewski
P2860
P304
P356
10.1109/TBME.2007.891934
P577
2007-09-01T00:00:00Z