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  • Title: End-Organ reinnervation does not prevent axonal degeneration in nerve allografts following immunosuppression withdrawal.
    Author: Midha R, Munro CA, Ang LC.
    Journal: Restor Neurol Neurosci; 1998; 13(3-4):163-72. PubMed ID: 12671277.
    Abstract:
    Previous work indicated that appropriate end-organ reinnervation fails to influence axonal degeneration in nerve allografts following immunosuppression withdrawal. In the present study, we examined if differences existed in axonal degeneration when axons regenerated across nerve allografts are allowed or completely denied end-organ reinnervation. Two ACI rat nerve allografts (3 cm long) were sutured into gaps created in both peroneal nerves in Lewis rats. In the right leg, the distal end of the graft was connected to the distal host nerve stump to allow end-organ reinnervation. In the left leg, the distal end was turned back and double ligated (unconnected) to prevent end-organ reinnervation. Rats received Cyclosporin A daily for 12 weeks to allow for regeneration and were sacrificed at 16 (n = 5) or 18 (n = 5) weeks following engraftment to assess axonal degeneration following immunosuppression withdrawal. Five Lewis rats receiving autografts served as control and were sacrificed at 12 weeks. Morphometric analysis was performed. In the control group (autografts) the cross-sectional area of and the number of myelinated fibres in the unconnected grafts was double that of the connected grafts, suggesting a sprouting effect. There was a tenfold reduction in the mean number of fibres at weeks 16 and 18 in the allografts compared to controls, without any significant differences in the connected versus unconnected sides. End-organ reinnervation decreases sprouting of axons within the graft but does not protect axons from degeneration following immunosuppression withdrawal.
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