Increased axonal regeneration over long nerve gaps using autologous nerve-muscle sandwich grafts.

Poor recovery is seen after repair of long defects in peripheral nerves when denatured muscle grafts or regeneration chambers providing physical support alone are used. The presence of Schwann cells and neurotrophic factors is required for axons to migrate significant distances. In this study we have used immunohistochemical techniques and axon counts to quantify the regeneration seen when 5 cm defects in rabbit sciatic nerve were repaired with a composite graft consisting of 2-3 mm lengths of fresh autologous nerve sandwiched between 1 cm frozen-thawed muscle grafts. This technique led to a similar pattern of regeneration as that seen in autologous nerve grafts, used as controls, and a significantly (P < 0.0001) greater axonal and Schwann cell regeneration compared with that seen in frozen-thawed muscle grafts of the same total length. In conclusion, we present a simple technique for incorporating a depot of Schwann cells and other essential components into a nerve conduit which has a marked effect on axonal regeneration across long defects.