- importsource = "01959131-2005-11.txt"
- Artículo:
Musculoskeletal Modeling and the Prediction of In Vivo Muscle and Joint Forces.
- Autor:
PAUL DeVITA
- Página:
1909
- Sección:
Symposium
- Publicación:
Medicine and Science in Sports and Exercise
- Volúmen:
37
- Número:
11
- Fecha:
November 2005
- ISSN:
01959131
- SrcID:
01959131-2005-11.txt
- Documento número 768409
- Actualizado el martes, 10 de julio de 2018 10:41:00 a. m.
- Creado el martes, 10 de julio de 2018 10:41:00 a. m.
- Enlace directo
- Artículo:
Estimation of Muscle Forces and Joint Moments Using a Forward-Inverse Dynamics Model.
- Autor:
THOMAS S. BUCHANAN
DAVID G. LLOYD
KURT MANAL
THOR F. BESIER
- Resumen:
Purpose: This paper presents a forward dynamic neuromusculoskeletal model that can be used to estimate and predict joint moments and muscle forces. It uses EMG signals as inputs to the model, and joint moments predicted are verified through inverse dynamics. The aim of the model is to estimate or predict muscle forces about a joint, which can be used to estimate the corresponding joint compressive forces, and/or ligament forces in healthy and impaired subjects, based on the way they activate their muscles.
- Página:
1911
- Sección:
Symposium
- Publicación:
Medicine and Science in Sports and Exercise
- Volúmen:
37
- Número:
11
- Fecha:
November 2005
- ISSN:
01959131
- SrcID:
01959131-2005-11.txt
- Documento número 768410
- Actualizado el martes, 10 de julio de 2018 10:41:00 a. m.
- Creado el martes, 10 de julio de 2018 10:41:00 a. m.
- Enlace directo
- Artículo:
Use of an EMG-Driven Biomechanical Model to Study Virtual Injuries.
- Autor:
KURT MANAL
THOMAS S. BUCHANAN
- Resumen:
Introduction: How the CNS activates muscles to produce coordinated movement is a matter of debate and great interest. We are attempting to answer this question, in part, by investigating how individual muscles and groups of muscles are activated under different physiologic and environmental conditions. We have developed an EMG-driven virtual arm to assist in this endeavor.
- Página:
1917
- Sección:
Symposium
- Publicación:
Medicine and Science in Sports and Exercise
- Volúmen:
37
- Número:
11
- Fecha:
November 2005
- ISSN:
01959131
- SrcID:
01959131-2005-11.txt
- Documento número 768411
- Actualizado el martes, 10 de julio de 2018 10:41:00 a. m.
- Creado el martes, 10 de julio de 2018 10:41:00 a. m.
- Enlace directo
- Artículo:
A Modeling Framework to Estimate Patellofemoral Joint Cartilage Stress In Vivo.
- Autor:
Garry E. Gold
Gary S. Beaupré
Scott L. Delp
- Resumen:
Purpose: Patellofemoral (PF) pain is common among athletes and may be caused by increased subchondral bone stress as a result of increased stress in the cartilage of the femur or patella. This article presents a modeling pipeline to estimate in vivo cartilage stress in the PF joint.AUT Thor F. Besier
- Página:
1924
- Sección:
Symposium
- Publicación:
Medicine and Science in Sports and Exercise
- Volúmen:
37
- Número:
11
- Fecha:
November 2005
- ISSN:
01959131
- SrcID:
01959131-2005-11.txt
- Documento número 768412
- Actualizado el martes, 10 de julio de 2018 10:41:00 a. m.
- Creado el martes, 10 de julio de 2018 10:41:00 a. m.
- Enlace directo
- Artículo:
Simulation of Biceps Femoris Musculotendon Mechanics during the Swing Phase of Sprinting.
- Autor:
DARRYL G. THELEN
ELIZABETH S. CHUMANOV
THOMAS M. BEST
STEPHEN C. SWANSON
BRYAN C. HEIDERSCHEIT
- Resumen:
Introduction/Purpose: Characterization of hamstring mechanics during sprinting is fundamental to understanding musculotendon injury mechanisms. The objective of this study was to use muscle-actuated forward dynamic simulations to investigate musculotendon mechanics of the biceps femoris long head during the swing phase of sprinting.
- Página:
1931
- Sección:
Symposium
- Publicación:
Medicine and Science in Sports and Exercise
- Volúmen:
37
- Número:
11
- Fecha:
November 2005
- ISSN:
01959131
- SrcID:
01959131-2005-11.txt
- Documento número 768413
- Actualizado el martes, 10 de julio de 2018 10:41:00 a. m.
- Creado el martes, 10 de julio de 2018 10:41:00 a. m.
- Enlace directo
