Role of cartilage collagen fibrils networks in knee joint biomechanics under compression

Abstract Collagen fibrils networks in knee cartilage and menisci change in content and structure from a region to another. While resisting tension, they influence global joint response as well as local strains particularly at short-term periods. To investigate the role of fibrils networks in knee jo...

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Bibliographic Details
Published in:Journal of biomechanics 2008-12, Vol.41 (16), p.3340-3348
Main Authors: Shirazi, R, Shirazi-Adl, A, Hurtig, M
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Cartilage
Cartilage, Articular - physiology
Collagen
Collagen fibrils
Compressive Strength - physiology
Elastic Modulus
Fibrillar Collagens - physiology
Finite Element Analysis
Finite element method
Humans
Knee
Knee joint
Knee Joint - physiology
Medical research
Menisci, Tibial - physiology
Meniscus
Models, Biological
Physical Medicine and Rehabilitation
Stress, Mechanical
Studies
Weight-Bearing - physiology
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Summary:Abstract Collagen fibrils networks in knee cartilage and menisci change in content and structure from a region to another. While resisting tension, they influence global joint response as well as local strains particularly at short-term periods. To investigate the role of fibrils networks in knee joint mechanics and in particular cartilage response, a novel model of the knee joint is developed that incorporates the cartilage and meniscus fibrils networks as well as depth-dependent properties in cartilage. The joint response under up to 2000 N compression is investigated for conditions simulating the absence in cartilage of deep fibrils normal to subchondral bone or superficial fibrils parallel to surface as well as localized split of cartilage at subchondral junction or localized damage to superficial fibrils at loaded areas. Deep vertical fibrils network in cartilage play a crucial role in stiffening (by 10%) global response and protecting cartilage by reducing large strains (from maximum of 102% to 38%), in particular at subchondral junction. Superficial horizontal fibrils protect the tissue mainly from excessive strains at superficial layers (from 27% to 8%). Local cartilage split at base disrupts the normal function of vertical fibrils at the affected areas resulting in higher strains. Deep fibrils, and to a lesser extent superficial fibrils, play dominant mechanical roles in cartilage response under transient compression. Any treatment modality attempting to repair or regenerate cartilage defects involving partial or full thickness osteochondral grafts should account for the crucial role of collagen fibrils networks and the demanding mechanical environment of the tissue.
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2008.09.033