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Viscoelasticity and Temperature Variations Decrease Tension and Stiffness of Hamstring Tendon Grafts Following Anterior Cruciate Ligament Reconstruction

¹ The Medical Education and Research Institute of Colorado, 3920 North Union Boulevard, Suite 210, Colorado Springs, CO 80907. E-mail address for J.J. Elias: elias{at}meric.info

Investigation performed at the Medical Education and Research Institute of Colorado, Colorado Springs, Colorado

In support of their research for or preparation of this manuscript, one or more of the authors received grants or outside funding from Stryker Endoscopy. None of the authors received payments or other benefits or a commitment or agreement to provide such benefits from a commercial entity. No commercial entity paid or directed, or agreed to pay or direct, any benefits to any research fund, foundation, educational institution, or other charitable or nonprofit organization with which the authors are affiliated or associated.

Methods: Double-strand grafts were created from six semitendinosus tendons and six gracilis tendons harvested from cadaver specimens. The grafts were loaded to 65 N while at operating-room temperature (20°C). After fifteen minutes of stress relaxation, graft tension was measured and the grafts were stretched by 0.1 mm to determine stiffness. The tension and stiffness measurements represented graft properties immediately following reconstruction. Additional tension and stiffness measurements were made following three hours of stress relaxation and after increasing the temperature to the body temperature at the knee (34°C). Both types of graft were examined for differences in stiffness and tension due to stress relaxation and the temperature increase.

Results: For both types of graft, the tension and stiffness decreased following stress relaxation to approximately 50% and 80%, respectively, of the value immediately after reconstruction. Increasing the temperature decreased the tension and stiffness further to approximately 40% and 70%, respectively, of the value after reconstruction for both types of graft. All changes in tension and stiffness were significant (p < 0.01).

Conclusions: Graft tension and stiffness achieved immediately following reconstruction are not maintained postoperatively because of stress relaxation and a temperature increase. This could lead to increased knee laxity.

Clinical Relevance: Keeping hamstring tendon grafts warm may prevent the decrease in stiffness and tension caused by a postoperative temperature increase. Grafts should be preconditioned to the extent possible, although postoperative stress relaxation cannot be eliminated.

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