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Tendon Responses Depending on Different Anatomical Locations  

Chun, Keyoung-Jin (Korea Institute of Industrial Technology)
Robert P. Hubbard (Department of Mechanical Engineering, Michigan State University)
Publication Information
Journal of Mechanical Science and Technology / v.17, no.7, 2003 , pp. 1011-1015 More about this Journal
Abstract
The objectives of this work focus on the differences in responses of paired tendons from different anatomical locations. Tendon specimens were obtained from the hindlimbs of canines and frozen to -70$^{\circ}C$. After being thawed, specimens were mounted in the immersion bath, preloaded to 0.13N, and then subjected to 3% or 4% of the initial length at a strain rate of 5%/sec. It was found that the mechanical responses of anatomically paired tendons were nearly the same within each pair but different between pairs of tendons from different anatomical locations. Although flexor tendons had much larger cross-sectional area than the others, such as peroneus or extensor tendons, the stiffness of the flexor tendons were much lower than the others throughout their stress-strain responses. The nature and causes of these differences in the stiffness are not fully known. However, it is clear that differences in the mechanical response of tendons and other connective tissues are significant to the musculoskeletal performance.
Keywords
Tendon; Stress-Strain Response; Anatomically Paired; Difference; Musculoskeletal Performance; Connective Tissue;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Benedict, J.V., Walker, L.B. and Harris, E.H., 1968, 'Stress-Strain Characteristics and Tensile Strength of Unembalmed Human Tendon,' J. of Biomechanics, Vol. 1, pp. 55-63   DOI   ScienceOn
2 Berg, W.S., Stahurski, T.M., Morgan, J.M. and Greenwald, A.S., 1983, 'Mechanical Properties of Bovine Xenografts,' The 29th Annual Meeting, Orthopaedic Reasearch Society
3 Butler, D.L., Kay, M.D. and Stouffer, D.C., 1986, 'Comparison of Material Properties in Fascicle-Bone Units from Human Patellar Tendon and Knee Ligaments,' J.of Biomechanics, Vol. 19, No. 6, pp. 425-432   DOI   ScienceOn
4 Chun, K.J. and Hubbard, R.P., 2001a, 'Constitutive Model of Tendon Responses to Multiple Cycle Demands-I: Experimental Analysis,' KSME Internationl Journal, Vol. 15, No. 7, pp. 1002-1012   DOI
5 Chun, K.J. and Hubbard, R.P., 1987, 'Sectional and Anatomical Difference in Tendon Responses,' ASME Bioengineering Division 1987 Symposium, ASME Winter Annual Meeting
6 Chun, K.J. and Hubbard, R.P., 1986, 'Development of Reduced Relaxation Function and Stress Relaxtion with Paired Tendon,' ASME Bioengineering Division 1986 Symposium, ASME Winter Annual Meeting
7 Chun, K.J. and Hubbard, R.P., 2001b, 'Constitutive Model of Tendon Responses to Multiple Cycle Demands-II: Theory and Comparison,' KSME Internationl Journal, Vol. 15, No. 9, pp. 1281-1291   과학기술학회마을   DOI
8 Chun, K.J., Bulter, D.L., Stouffer, D.C. and Kay, M.D., 1998, 'Stress-Strain Relationships in Fascicle-Bone Unit from Human Patellar Tendon and Knee Ligaments,' The 34th Annual Meeting, Orthopasedic Research Society
9 Chuong, C.J., Johnson, R.L. and Reynolds, R.C., 1987, 'Anisotropic Property Measurement of the Diaphragmatic Central Tendon,' The 1987 Biomechanics Symposium (AME-Vol. 84), ASME
10 Elliot, D.H., 1965, 'Structure and Function of Mammalion Tendon,' Biol, Rev. 40, pp. 392-421   DOI   ScienceOn
11 Grood, E.S., Noyes, F.R. and Capsular, 1977, 'Structures of the Knee,' The 23rd Annual Meeting, Orthopaedic and Capsular Structure of the Knee The 23rd Annual Meeting Orthopaedic Research Society
12 Haut, R.C., 1986, 'The Influence of Specimen Length on the Tensile Failure Properties of Tendon Collagen,' J. of Biomechanical Engineering, ASME, Vol. 110, pp. 11-19
13 Hubbard, R.P. and Chun, K.J., 1985, 'Mechanical Response of Tendons to Repeated Expensions with Wait Periods,' J. of Biomechanical Engineering, ASME, Vol. 110, pp. 11-19
14 Woo, S.L.Y., Gomez, M.A., Amiel, D., Sanders, T.M., Gomez, M.A., Kuei, S.C., Garfin, S.R. and Akeson, W.H., 1980, 'The Biomechanical and Biochemical Properties of Swine Tendons - Long Term Effects of Exercise on the Digital Extensors,' Connective Tissue Research, Vol. 7, pp. 177-183   DOI   ScienceOn
15 Woo, S.L.Y., 1986, 'Biomechanics of Tendon and Ligaments,' Frontiers in Biomechanics, edited by Schmid-Schonbein, G.W., Woo, S.L.-Y. and Zweifach, B.W., Chapter 14, pp. 180-195
16 Woo, S.L.Y., Gomez, M.A., Amiel, D., Ritter, M.A., Gelberman, R.H. and Akeson, W.H., 1981, 'The Effect of Exercise on the Biomechanical and biochemical Properties of Swine Digital Flexor Tendon,' J. Biomech. Engin., Vol. 103, pp. 51-56   DOI   ScienceOn