Role of Interstitial Fluid Pressurization in TMJ Lubrication

In temporomandibular joints (TMJs), the disc and condylar cartilage function as load-bearing, shock-absorbing, and friction-reducing materials. The ultrastructure of the TMJ disc and cartilage is different from that of hyaline cartilage in other diarthrodial joints, and little is known about their l...

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Bibliographic Details
Published in:Journal of dental research 2015-01, Vol.94 (1), p.85-92
Main Authors: Zimmerman, B.K., Bonnevie, E.D., Park, M., Zhou, Y., Wang, L., Burris, D.L., Lu, X.L.
Format: Article
Language:English
Subjects:
Animals
Biomechanical Phenomena
Cartilage
Cartilage, Articular - anatomy & histology
Cartilage, Articular - physiology
Collagen - physiology
Collagen - ultrastructure
Dentistry
Female
Friction
Interferometry - methods
Joint Capsule - anatomy & histology
Joint Capsule - physiology
Load
Lubricants & lubrication
Lubrication
Male
Mandibular Condyle - anatomy & histology
Mandibular Condyle - physiology
Movement
Physiology
Pressure
Research Reports
Steel - chemistry
Stress, Mechanical
Swine
Synovial Fluid - physiology
Temporomandibular Joint - anatomy & histology
Temporomandibular Joint - physiology
Temporomandibular Joint Disc - anatomy & histology
Temporomandibular Joint Disc - physiology
Ultrastructure
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Summary:In temporomandibular joints (TMJs), the disc and condylar cartilage function as load-bearing, shock-absorbing, and friction-reducing materials. The ultrastructure of the TMJ disc and cartilage is different from that of hyaline cartilage in other diarthrodial joints, and little is known about their lubrication mechanisms. In this study, we performed micro-tribometry testing on the TMJ disc and condylar cartilage to obtain their region- and direction-dependent friction properties. Frictional tests with a migrating contact area were performed on 8 adult porcine TMJs at 5 different regions (anterior, posterior, central, medial, and lateral) in 2 orthogonal directions (anterior-posterior and medial-lateral). Some significant regional differences were detected, and the lateral-medial direction showed higher friction than the anterior-posterior direction on both tissues. The mean friction coefficient of condylar cartilage against steel was 0.027, but the disc, at 0.074, displayed a significantly higher friction coefficient. The 2 tissues also exhibited different frictional dependencies on sliding speed and normal loading force. Whereas the friction of condylar cartilage decreased with increased sliding speed and was independent of the magnitude of normal force, friction of the disc showed no dependence on sliding speed but decreased as normal force increased. Further analysis of the PĂ©clet number and frictional coefficients suggested that condylar cartilage relies on interstitial fluid pressurization to a greater extent than the corresponding contact area of the TMJ disc.
ISSN:0022-0345
1544-0591
DOI:10.1177/0022034514553626