Literature DB >> 19329458

Proteoglycans and mechanical behavior of condylar cartilage.

X L Lu1, V C Mow, X E Guo.   

Abstract

Mandibular condylar cartilage functions as the load-bearing, shock-absorbing, lubricating material in temporomandibular joints. Little is known about the precise nature of the biomechanical characteristics of this fibro-cartilaginous tissue. We hypothesized that the fixed charge density associated with proteoglycans that introduces an osmotic pressure inside condylar cartilage will significantly increase the tissue's apparent stiffness. Micro-indentation creep tests were performed on porcine TMJ condylar cartilage at 5 different regions-anterior, posterior, medial, lateral, and central-in physiologic and hypertonic solutions. The intrinsic and apparent mechanical properties, including aggregate modulus, shear modulus, and permeability, were calculated by indentation test data and the biphasic theory. The apparent properties (with osmotic effect) were statistically higher than those of the intrinsic solid matrix (without osmotic effect). Regional variations in fixed charge density, permeability, and mechanical modulus were also calculated for condylar surface. The present results provide important quantitative data on the biomechanical properties of TMJ condylar cartilage.

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Year:  2009        PMID: 19329458      PMCID: PMC3317939          DOI: 10.1177/0022034508330432

Source DB:  PubMed          Journal:  J Dent Res        ISSN: 0022-0345            Impact factor:   6.116


  27 in total

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Authors:  K Hu; P Radhakrishnan; R V Patel; J J Mao
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5.  The permeability of articular cartilage.

Authors:  A Maroudas; P Bullough; S A Swanson; M A Freeman
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6.  Osmotic loading to determine the intrinsic material properties of guinea pig knee cartilage.

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7.  Mineralizing enthesopathy is a common feature of renal phosphate-wasting disorders attributed to FGF23 and is exacerbated by standard therapy in hyp mice.

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10.  Effects of Osmolarity on the Spontaneous Calcium Signaling of In Situ Juvenile and Adult Articular Chondrocytes.

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