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The Journal of Experimental Biology 206, 1397-1408 (2003)
doi: 10.1242/jeb.00264

Comparative equilibrium mechanical properties of bovine and lamprey cartilaginous tissues

Hayden-William Courtland¹, Glenda M. Wright¹, Robert G. Root² and M. Edwin DeMont^3,*

¹ Department of Biomedical Sciences, UPEI Atlantic Veterinary College, Charlottetown, Prince Edward Island, C1A 4P3, Canada
² Department of Mathematics, Lafayette College, Easton, PA 18042, USA
³ Department of Biology, St Francis Xavier University, Antigonish, Nova Scotia, B2G 2W5, Canada

^* Author for correspondence (e-mail: edemont{at}stfx.ca)

Accepted 27 January 2003

In contrast to all other vertebrate cartilages, the major extracellular matrix protein of lamprey cartilages is not collagen. Instead, there exists a unique family of noncollagenous structural proteins, the significance of which is not completely understood. A custom-built uniaxial testing apparatus was used to quantify and compare equilibrium stress-relaxation behavior (equilibrium moduli, stress decay behavior, recovery times and relaxation times) of (1) lamprey pericardial cartilages with perichondria tested in tension (young adult and aged), (2) annular cartilages without perichondria tested in compression (young adult and aged) and (3) bovine auricular cartilage samples without perichondria tested in both tension and compression. Results of this study demonstrated that all cartilages were highly viscoelastic but with varying relaxation times; approximately 120 min for annular and pericardial cartilages and 30 min for bovine auricular cartilages. For mean equilibrium moduli, young adult lamprey annular cartilages (0.71 MPa) and pericardial cartilages (2.87 MPa) were found to be statistically different. The mean moduli of all bovine auricular cartilages were statistically identical to lamprey cartilages except in the case of aged adult pericardial cartilages, which were statistically larger than all other cartilages at 4.85 MPa. Taken together, the results of this study suggest that lamprey cartilages are able to exhibit mechanical properties largely similar to those of mammalian cartilages despite unique structural proteins and differences in extracellular matrix organization.

Key words: cartilage, collagen, tension, compression, lamprey, Petromyzon marinus, stiffness, viscoelastic properties

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