The Mechanical Properties of Rat Tail Tendon

Overview

Journal J Gen Physiol

Specialty Physiology

Date 2009 Oct 30

PMID 19873525

Citations 77

Authors

B J Rigby

N Hirai

J D Spikes

H EYRING

Affiliations

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Abstract

The load-strain and stress-relaxation behavior of wet rat tail tendon has been examined with respect to the parameters strain, rate of straining, and temperature. It is found that this mechanical behavior is reproducible after resting the tendon for a few minutes after each extension so long as the strain does not exceed about 4 per cent. If this strain is exceeded, the tendon becomes progressively easier to extend but its length still returns to the original value after each extension. Extensions of over 35 per cent can be reached in this way. Temperature has no effect upon the mechanical behavior over the range 0-37 degrees C. Just above this temperature, important changes take place in the mechanical properties of the tendon which may have biological significance. The application of the techniques used here to studies of connective tissue disorders is suggested. Some of the mechanical properties of tendon have been interpreted with a simple model.

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References

FLORY P . Role of Crystallization in Polymers and Proteins. Science. 1956; 124(3211):53-60. DOI: 10.1126/science.124.3211.53. View

HARDY R . Observations on the structure and properties of the plantar calcaneo-navicular ligament in man. J Anat. 1951; 85(2):135-9. PMC: 1273592. View

Allen A, SIROTA J . The Morphogenesis and Significance of Degenerative Verrucal Endocardiosis (Terminal Endocarditis, Endocarditis Simplex, Nonbacterial Thrombotic Endocarditis). Am J Pathol. 2009; 20(6):1025-55. PMC: 2033063. View

HUGGINS M . THE STRUCTURE OF COLLAGEN. Proc Natl Acad Sci U S A. 1957; 43(2):209-13. PMC: 528413. DOI: 10.1073/pnas.43.2.209. View

Rich A, VOISIN G, Bang F . Electron microscopic studies of the alteration of collagen fibrils in the arthus phenomenon. Bull Johns Hopkins Hosp. 1953; 92(3):222-43. View