1. Analysis of microarchitectural changes in a mouse temporomandibular joint osteoarthritis model
- Author
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Chen, J., Gupta, T., Barasz, J.A., Kalajzic, Z., Yeh, W.-C., Drissi, H., Hand, A.R., and Wadhwa, S.
- Subjects
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LABORATORY mice , *TEMPOROMANDIBULAR joint , *OSTEOARTHRITIS , *ANIMAL disease models , *TRANSMISSION electron microscopy , *POPULATION - Abstract
Abstract: Objective: Little is known about the natural progression of the disease process of temporomandibular joint (TMJ) osteoarthritis (OA), which affects approximately 1% of the US population. The goal of this study was to examine the early microarchitectural and molecular changes in the condylar cartilage and subchondral bone in biglycan/fibromodulin (Bgn/Fmod) double-deficient mice, which develop TMJ-OA at 6 months. Methods: TMJs from 3-month-old (n =44) and 9-month-old (n =52) wild-type (WT n =46) and Bgn/Fmod (n =50) double-deficient mice were evaluated. Micro-CT analysis of the subchondral bone (n =24), transmission electron microscopy for condylar cartilage fibril diameters (n =26), and real-time PCR analysis for gene expression for bone and cartilage maturation markers (n =45) was performed. Results: A statistically significant increase in collagen fibril diameter of the condylar cartilage and a decrease in expression of Parathyroid related protein in the mandibular condylar head were observed in the 3-month Bgn/Fmod double-deficient mice compared to WT controls. The 9-month Bgn/Fmod double-deficient mouse demonstrated an increase in bone volume and total volume in subchondral bone, and an increase in the expression of Collagen Type X and Aggrecan in the mandibular condylar head compared to the WT controls. Conclusion: We found that changes in the microarchitecture of the condylar cartilage preceded changes in the subchondral bone during OA in the TMJ in Bgn/Fmod double-deficient mice. [Copyright &y& Elsevier]
- Published
- 2009
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