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APPLICATION OF ADJUVANT CELL THERAPY TO THE TREATMENT OF PERIPHERAL NERVE INJURY



Abstract

Purpose: Prolonged denervation resulting from deferred nerve repair or long distance between the muscle and the repaired nerve, leads to major alterations concerning muscle fibre degeneration and their replacement by fibrous or fatty tissue. These structural modifications of the muscle are unfavourable for reinnervation and consequently affect the final functional outcome after peripheral nerve repair with its corollary of reduced muscle force. The purpose of this work was to assess the potential for regeneration of denervated-reinnervated muscles and their improvement with adjuvant cell therapy using in situ transfer of cultured autologus satellite cells.

Material and methods: This work was conducted with the tibialis anterior muscle in different groups of New Zealand rabbits. The experimental model was a sectioned common fibular nerve and immediate or deferred (two months) microsurgical nerve suture. In vivo functional measurements and histomorphological analyses were performed four months after nerve repair.

Results: Reinervation led to loss of mucle weight and maximal force (Fmax) which were greater with longer deferral of repair. Transfer of satellite cells performed immediately after reinervation did not improve muscle properties. Conversely, transfer of satellite cells two months after nerve suture increased Fmax 25% (p < 0.01) and muscle weight 28% (p = 0.005) in comparison with control muscles undergoing reinervation without cell transfer. Furthermore, the morphology of the muscle was improved as demonstrated by anti-myosine labelling studies.

Discussion: Adjuvant cell therapy allows, in certain conditions, an improvement in functional recovery after peripheral nerve injury. Its clinical application still raises a certain number of ethical issues but taking into consideration data currently available, it would be reasonable to propose this therapeutic approach in humans to reduce involution of the denervated muscle and improve its receptivity for regenerating axons after peripheral nerve repair. Better post-operative results could be expected

The abstracts were prepared by Docteur Jean Barthas. Correspondence should be addressed to him at Secrétariat de la Société S.O.F.C.O.T., 56 rue Boissonade, 75014 Paris.