Title of article
Biomechanics of single zonal chondrocytes
Author/Authors
Adrian C. Shieh، نويسنده , , Kyriacos A. Athanasiou، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
8
From page
1595
To page
1602
Abstract
Articular cartilage has a distinct zonal architecture, and previous work has shown that chondrocytes from different zones exhibit variations in gene expression and biosynthesis. In this study, the material properties of single chondrocytes from the superficial and middle/deep zones of bovine distal metatarsal articular cartilage were determined using unconfined compression and digital videocapture. To determine the viscoelastic properties of zonal chondrocytes, unconfined creep compression experiments were performed and the resulting creep curves of individual cells were fit using a standard linear viscoelastic solid model. In the model, a fixed value of the Poissonʹs ratio was used, determined optically from direct compression of middle/deep chondrocytes. The two approaches used in this study yielded the following average material properties of single chondrocytes: Poissonʹs ratio of 0.26±0.08, instantaneous modulus of 1.06±0.82 kPa, relaxed modulus of 0.78±0.58 kPa, and apparent viscosity of 4.08±7.20 kPa s. Superficial zone chondrocytes were found to be significantly stiffer than middle/deep zone chondrocytes. Attachment time did not affect the stiffness of the cells. The zonal variation in viscoelastic properties may result from the distinct mechanical environments experienced by the cells in vivo. Identifying intrinsic differences in the biomechanics of superficial and middle/deep zone chondrocytes is an important component in understanding how biomechanics influence articular cartilage health and disease.
Keywords
Articular cartilage , Poisson’s ratio , Single cell mechanics , viscoelastic , Cytocompression
Journal title
Journal of Biomechanics
Serial Year
2006
Journal title
Journal of Biomechanics
Record number
452208
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