Eccentric training improves tendon biomechanical properties: A rat model |
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Authors: | Jean‐François Kaux Pierre Drion Vincent Libertiaux Alain Colige Audrey Hoffmann Betty Nusgens Benoît Besançon Bénédicte Forthomme Caroline Le Goff Rachel Franzen Jean‐Olivier Defraigne Serge Cescotto Markus Rickert Jean‐Michel Crielaard Jean‐Louis Croisier |
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Institution: | 1. Physical Medicine Service and Department of Motility Sciences, University Hospital of Liège, University of Liège, Avenue de 1'H?pital, B35, B‐4000 Liege, Belgium;2. Animal Facility of University Hospital of Liège, ULg‐GIGA‐R, University of Liège, Belgium;3. Department Argenco, University of Liège, Belgium;4. Laboratory of Connective Tissues Biology, GIGA‐R, University of Liège, Belgium;5. Department of Clinical Biology, University Hospital of Liège, University of Liège, Belgium;6. Department of Biomedical and Preclinic Sciences, GIGA‐R, University of Liège, Belgium;7. CREDEC, Laboratory of Experimental Surgery, University of Liège, Belgium;8. Department of Orthopaedic Surgery, University of Heidelberg, Germany |
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Abstract: | The treatment of choice for tendinopathies is eccentric reeducation. Although the clinical results appear favorable, the biomechanical changes to the tissue are not yet clear. Even if the mechanotransduction theory is commonly accepted, the physiology of tendons is not clearly understood. We aimed to better define the biomechanical and histological changes that affect healthy tendon after eccentric and concentric training. This study compared the effects of two methods of training (eccentric E] training and concentric C] training) with untrained (U) rats. The animals were trained over a period of 5 weeks. The tricipital, patellar, and Achilles tendons were removed, measured and a tensile test until failure was performed. A histological analysis (hematoxylin and eosin and Masson's trichrome stains) was also realized. There was a significant increase in the rupture force of the patellar and tricipital tendons between the U and E groups. The tricipital tendons in the control group presented a significantly smaller cross‐sectional area than the E‐ and C‐trained groups, but none was constated between E and C groups. No significant difference was observed for the mechanical stress between the three groups for all three tendons. Histological studies demonstrated the development of a greater number of blood vessels and a larger quantity of collagen in the E group. The mechanical properties of tendons in rats improve after specific training, especially following eccentric training. Our results partly explained how mechanical loading, especially in eccentric mode, could improve the healing of tendon. © 2012 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 31:119–124, 2012 |
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Keywords: | tendon eccentric concentric rat |
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