A subject-specific finite element model of the anterior cruciate ligament

The anterior cruciate ligament (ACL) is commonly injured. The stress distribution in the ACL is the key for understanding its function and injury mechanism, as well as for developing optimal surgical reconstruction protocols. In this study, a three-dimensional subject-specific finite element model o...

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Published in	2008 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society Vol. 2008; pp. 891 - 894
Main Authors	Zhang, Xiaoyan, Jiang, Guotai, Wu, Changfu, Woo, Savio L-Y.
Format	Conference Proceeding Journal Article
Language	English
Published	United States IEEE 01.01.2008
Subjects	Adult Anterior Cruciate Ligament - physiology Compressive Strength - physiology Computer Simulation Elastic Modulus - physiology Female Finite Element Analysis Force Geometry Humans In Vitro Techniques Ligaments Load modeling Models, Biological Optical fiber sensors Strain Stress Stress, Mechanical Weight-Bearing - physiology
Online Access	Get full text
ISBN	9781424418145 1424418143
ISSN	1094-687X 1557-170X
DOI	10.1109/IEMBS.2008.4649297

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Abstract	The anterior cruciate ligament (ACL) is commonly injured. The stress distribution in the ACL is the key for understanding its function and injury mechanism, as well as for developing optimal surgical reconstruction protocols. In this study, a three-dimensional subject-specific finite element model of human ACL was developed. Bony geometries were reconstructed from CT scan images, while the geometry of the ACL and the orientation of its fiber bundles were measured via a mechanical digitizer. A transversely isotropic, hyperelastic, and nearly incompressible constitutive model was implemented to describe the mechanical properties of the ACL. A 134N anterior tibial load were applied to a cadaveric knee specimen at full extension, 30°, and 60° of flexion by a 6-DOF Robotic/Universal Force-moment Sensor (UFS) system, which was also used to measure the ACL resultant force. Knee kinematics was collected by digitizing two registration blocks attached to the femur and the tibia, respectively, and was input into the FE model as boundary conditions. The resultant force of the ACL calculated by the FE model was comparable to the experimental data, with the error within 10%, thus validated the model. The FE results showed that the average stress in the ACL was between the range 4.7-5.0MPa, with a peak stress between the range 9.8-10.9MPa, which shifted from the posterior lateral (PL) bundle to the anterior medial (AM) bundle as the knee flexed.
AbstractList	The anterior cruciate ligament (ACL) is commonly injured. The stress distribution in the ACL is the key for understanding its function and injury mechanism, as well as for developing optimal surgical reconstruction protocols. In this study, a three-dimensional subject-specific finite element model of human ACL was developed. Bony geometries were reconstructed from CT scan images, while the geometry of the ACL and the orientation of its fiber bundles were measured via a mechanical digitizer. A transversely isotropic, hyperelastic, and nearly incompressible constitutive model was implemented to describe the mechanical properties of the ACL. A 134N anterior tibial load were applied to a cadaveric knee specimen at full extension, 30°, and 60° of flexion by a 6-DOF Robotic/Universal Force-moment Sensor (UFS) system, which was also used to measure the ACL resultant force. Knee kinematics was collected by digitizing two registration blocks attached to the femur and the tibia, respectively, and was input into the FE model as boundary conditions. The resultant force of the ACL calculated by the FE model was comparable to the experimental data, with the error within 10%, thus validated the model. The FE results showed that the average stress in the ACL was between the range 4.7-5.0MPa, with a peak stress between the range 9.8-10.9MPa, which shifted from the posterior lateral (PL) bundle to the anterior medial (AM) bundle as the knee flexed. The anterior cruciate ligament (ACL) is commonly injured. The stress distribution in the ACL is the key for understanding its function and injury mechanism, as well as for developing optimal surgical reconstruction protocols. In this study, a three-dimensional subject-specific finite element model of human ACL was developed. Bony geometries were reconstructed from CT scan images, while the geometry of the ACL and the orientation of its fiber bundles were measured via a mechanical digitizer. A transversely isotropic, hyperelastic, and nearly incompressible constitutive model was implemented to describe the mechanical properties of the ACL. A 134N anterior tibial load were applied to a cadaveric knee specimen at full extension, 30 degrees , and 60 degrees of flexion by a 6-DOF Robotic/Universal Force-moment Sensor (UFS) system, which was also used to measure the ACL resultant force. Knee kinematics was collected by digitizing two registration blocks attached to the femur and the tibia, respectively, and was input into the FE model as boundary conditions. The resultant force of the ACL calculated by the FE model was comparable to the experimental data, with the error within 10%, thus validated the model. The FE results showed that the average stress in the ACL was between the range 4.7-5.0MPa, with a peak stress between the range 9.8-10.9MPa, which shifted from the posterior lateral (PL) bundle to the anterior medial (AM) bundle as the knee flexed.
Author	Jiang, Guotai Woo, Savio L-Y. Wu, Changfu Zhang, Xiaoyan
Author_xml	– sequence: 1 givenname: Xiaoyan surname: Zhang fullname: Zhang, Xiaoyan email: juliazhang61@hotmail.com organization: School of Life Science and Technology, Tongji University, Shanghai, 200092 China – sequence: 2 givenname: Guotai surname: Jiang fullname: Jiang, Guotai email: jianggt@mail.tongji.edu.cn organization: School of Life Science and Technology, Tongji University, Shanghai, 200092 China – sequence: 3 givenname: Changfu surname: Wu fullname: Wu, Changfu email: cwu70@yahoo.com organization: Musculoskeletal Research Center, Department of Bioengineering, University of Pittsburgh, PA 15219, USA – sequence: 4 givenname: Savio L-Y. surname: Woo fullname: Woo, Savio L-Y. email: ddecenzo@pitt.edu organization: Musculoskeletal Research Center, Department of Bioengineering, University of Pittsburgh, PA 15219, USA
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SubjectTerms	Adult Anterior Cruciate Ligament - physiology Compressive Strength - physiology Computer Simulation Elastic Modulus - physiology Female Finite Element Analysis Force Geometry Humans In Vitro Techniques Ligaments Load modeling Models, Biological Optical fiber sensors Strain Stress Stress, Mechanical Weight-Bearing - physiology
Title	A subject-specific finite element model of the anterior cruciate ligament
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