Tensile Strength of Healing Peripheral Nerves

C. L. F. Temple; D. C. Ross; C. E. Dunning; J. A. Johnson; G. J. W. King

doi:10.1055/s-2003-44637

Journal of Reconstructive Microsurgery, Table of Contents

J Reconstr Microsurg 2003; 19(7): 483-488
DOI: 10.1055/s-2003-44637

Tensile Strength of Healing Peripheral Nerves

C. L.F. Temple¹ , D. C. Ross¹ , C. E. Dunning² , J. A. Johnson² , G. J.W. King³

¹Division of Plastic Surgery, University of Western Ontario
²Department of Mechanical and Materials Engineering, University of Western Ontario
³Division of Orthopedics, University of Western Ontario

Abstract

ABSTRACT

Although the time required for a nerve to gain sufficient strength to withstand normal physiologic forces of joint motion is unknown, typically nerve repairs are protected up to 3 weeks postoperatively. The authors investigated the mechanical strength of a nerve repair as a function of time. Fifty adult Sprague-Dawley rats underwent sciatic nerve division and repair, and were sacrificed in groups of 10 at 0, 1, 2, 4, and 8 weeks. Repaired nerves were then mechanically loaded at 5 mm/min to failure. Gapping across the repair site was captured on high-resolution video. The contralateral sciatic nerve served as a control. A significant increase in tensile strength was gained between 0 and 1 week and between 2 and 4 weeks. Healing nerves achieved 63 percent of the strength of the control by 8 weeks. Controls showed no gain in strength over the testing period. Gapping occurred at lower forces at all time increments. From 0 to 1 week, a significant increase in load necessary to produce gapping was found, which did not increase significantly again until 8 weeks. These results may have implications for postoperative rehabilitation protocols in patients with nerve injuries.

KEYWORDS

Nerve repair - neurorrhaphy - tensile strength - rat sciatic nerve

Full Text

References

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