A Computational Investigation of Microstructural Damage of the Anterior Cruciate Ligament Under High Loading of the Knee Joint
The anterior cruciate ligament plays a major role in maintaining the stability of the knee joint and is susceptible to injury under strenuous activity. Anterior cruciate ligament (ACL) injuries can lead to joint instability and complications such as osteoarthritis. Despite this, there is a lack of m...
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| Published in | Journal of biomechanical engineering Vol. 145; no. 1 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
United States
01.01.2023
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| Subjects | |
| Online Access | Get more information |
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| Abstract | The anterior cruciate ligament plays a major role in maintaining the stability of the knee joint and is susceptible to injury under strenuous activity. Anterior cruciate ligament (ACL) injuries can lead to joint instability and complications such as osteoarthritis. Despite this, there is a lack of material models capable of predicting damage at a localized fiber level, hindering our ability to understand how damage develops in real-time. This work develops a continuum-damage material model of the ACL and applies the model to a finite element simulation of the knee undergoing high quadriceps tendon loading. Using quadriceps tendon loadings of 1000, 1500, and 2000 N, the development of microstructural damage within the ACL tissue was examined, and the effects of localized damage on the joint kinematics were investigated. Damage tended to develop in the midsubstance of the ACL in the present model in the anterior medial bundle region and could induce significant changes in the joint kinematics. Using this model, new insights into the development of ACL injury mechanisms can be investigated. |
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| AbstractList | The anterior cruciate ligament plays a major role in maintaining the stability of the knee joint and is susceptible to injury under strenuous activity. Anterior cruciate ligament (ACL) injuries can lead to joint instability and complications such as osteoarthritis. Despite this, there is a lack of material models capable of predicting damage at a localized fiber level, hindering our ability to understand how damage develops in real-time. This work develops a continuum-damage material model of the ACL and applies the model to a finite element simulation of the knee undergoing high quadriceps tendon loading. Using quadriceps tendon loadings of 1000, 1500, and 2000 N, the development of microstructural damage within the ACL tissue was examined, and the effects of localized damage on the joint kinematics were investigated. Damage tended to develop in the midsubstance of the ACL in the present model in the anterior medial bundle region and could induce significant changes in the joint kinematics. Using this model, new insights into the development of ACL injury mechanisms can be investigated. |
| Author | Knapp, Alexander Williams, Lakiesha N |
| Author_xml | – sequence: 1 givenname: Alexander surname: Knapp fullname: Knapp, Alexander organization: Department of Mechanical and Aerospace Engineering, University of Florida, Gainesville, FL 32611 – sequence: 2 givenname: Lakiesha N surname: Williams fullname: Williams, Lakiesha N organization: Department of Biomedical Engineering, University of Florida, Gainesville, FL 32611 |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/35900855$$D View this record in MEDLINE/PubMed |
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| Snippet | The anterior cruciate ligament plays a major role in maintaining the stability of the knee joint and is susceptible to injury under strenuous activity.... |
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| SubjectTerms | Anterior Cruciate Ligament Anterior Cruciate Ligament Injuries Biomechanical Phenomena Humans Knee Knee Injuries Knee Joint |
| Title | A Computational Investigation of Microstructural Damage of the Anterior Cruciate Ligament Under High Loading of the Knee Joint |
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