Effect of Stride Length on Knee Contact

The knee joint is structurally complex and there are numerous factors that influence knee dynamics. Therefore, it is valuable to study the effect of stride length on knee contact during walking. Moreover, it is crucial to study the mechanical properties of the knee joint for the protection of the kn...

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Published inShanghai jiao tong da xue xue bao Vol. 30; no. 4; pp. 759 - 767
Main Authors Chen, Huiran, Fu, Rongchang, Yang, Xiaozheng, Li, Pengju, Wang, Kun
Format Journal Article
LanguageEnglish
Published Shanghai Shanghai Jiaotong University Press 01.08.2025
Springer Nature B.V
Subjects
Architecture
Boundary conditions
Cartilage
Computer Science
Contact stresses
Electrical Engineering
Engineering
Femur
Finite element method
Joints (anatomy)
Kinematics
Knee
Life Sciences
Materials Science
Mechanical properties
Menisci
Meniscus
Motion capture
Walking
Working conditions
动作捕捉
A
finite element method
膝关节接触
下肢运动学
R318.01
knee contact
lower extremity kinematics
motion capture
有限元法
Online AccessGet full text
ISSN1007-1172
1674-8115
1995-8188
DOI10.1007/s12204-024-2577-7

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Abstract The knee joint is structurally complex and there are numerous factors that influence knee dynamics. Therefore, it is valuable to study the effect of stride length on knee contact during walking. Moreover, it is crucial to study the mechanical properties of the knee joint for the protection of the knee joint and the mechanism of knee diseases. In this study, a healthy volunteer was invited to investigate the kinematics of the lower limb under different stride lengths by conducting motion capture experiments. Then, a complete and detailed finite element model of the knee was established, and the effect of stride length on the knee contact was studied using the finite element method, where the boundary conditions and loads were set up in accordance with the actual working conditions based on the data obtained from the motion capture experiments. When the stride length was increased by 23.08% compared with the habitual stride length, the knee flexion angle at the beginning moment of the single-legged support phase could be increased by 108.12%, the maximum von Mises stress values on the femur cartilage and meniscus were increased from 5.888 to 16.023 MPa and from 5.599 to 17.387 MPa, respectively, and the high-stress zone on the contact surface was also significantly shifted. When the stride length was reduced by 12.31% compared to the habitual stride length, the knee flexion angle at the moment of the end of the single-legged support phase was reduced by 62.22%, and the maximum von Mises stress values on the femur cartilage and meniscus were reduced from 5.362 MPa to 2.074 MPa and from 5.255 MPa to 1.986 MPa, respectively. The results of this paper indicate that when exercising and preventing or treating stride knee diseases by walking, people should choose a suitable stride for exercise according to the health condition of the knee and avoid over-pursuing a large stride to improve the exercise effect, while a smaller stride is suitable for most people.
AbstractList The knee joint is structurally complex and there are numerous factors that influence knee dynamics. Therefore, it is valuable to study the effect of stride length on knee contact during walking. Moreover, it is crucial to study the mechanical properties of the knee joint for the protection of the knee joint and the mechanism of knee diseases. In this study, a healthy volunteer was invited to investigate the kinematics of the lower limb under different stride lengths by conducting motion capture experiments. Then, a complete and detailed finite element model of the knee was established, and the effect of stride length on the knee contact was studied using the finite element method, where the boundary conditions and loads were set up in accordance with the actual working conditions based on the data obtained from the motion capture experiments. When the stride length was increased by 23.08% compared with the habitual stride length, the knee flexion angle at the beginning moment of the single-legged support phase could be increased by 108.12%, the maximum von Mises stress values on the femur cartilage and meniscus were increased from 5.888 to 16.023 MPa and from 5.599 to 17.387 MPa, respectively, and the high-stress zone on the contact surface was also significantly shifted. When the stride length was reduced by 12.31% compared to the habitual stride length, the knee flexion angle at the moment of the end of the single-legged support phase was reduced by 62.22%, and the maximum von Mises stress values on the femur cartilage and meniscus were reduced from 5.362 MPa to 2.074 MPa and from 5.255 MPa to 1.986 MPa, respectively. The results of this paper indicate that when exercising and preventing or treating stride knee diseases by walking, people should choose a suitable stride for exercise according to the health condition of the knee and avoid over-pursuing a large stride to improve the exercise effect, while a smaller stride is suitable for most people.
Author Yang, Xiaozheng
Li, Pengju
Wang, Kun
Chen, Huiran
Fu, Rongchang
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Keywords 动作捕捉
A
finite element method
膝关节接触
下肢运动学
R318.01
knee contact
lower extremity kinematics
motion capture
有限元法
Language English
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Snippet The knee joint is structurally complex and there are numerous factors that influence knee dynamics. Therefore, it is valuable to study the effect of stride...
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SubjectTerms Architecture
Boundary conditions
Cartilage
Computer Science
Contact stresses
Electrical Engineering
Engineering
Femur
Finite element method
Joints (anatomy)
Kinematics
Knee
Life Sciences
Materials Science
Mechanical properties
Menisci
Meniscus
Motion capture
Walking
Working conditions
Title Effect of Stride Length on Knee Contact
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