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FGF1 containing biodegradable device with peripheral nerve grafts induces corticospinal tract regeneration and motor evoked potentials after spinal cord resection

Authors :
Nordblom, Jonathan
Persson, Jonas K. E.
Åberg, Jonas
Blom, Hans
Engqvist, Håkan
Brismar, Hjalmar
Sjodahl, Johan
Josephson, Anna
Frostell, Arvid
Thams, Sebastian
Brundin, Lou
Svensson, Mikael
Mattsson, Per
Nordblom, Jonathan
Persson, Jonas K. E.
Åberg, Jonas
Blom, Hans
Engqvist, Håkan
Brismar, Hjalmar
Sjodahl, Johan
Josephson, Anna
Frostell, Arvid
Thams, Sebastian
Brundin, Lou
Svensson, Mikael
Mattsson, Per
Publication Year :
2012

Abstract

Purpose: Repairing the spinal cord with peripheral nerve grafts (PNG) and adjuvant acidic fibroblast growth factor (FGF1) has previously resulted in partial functional recovery. To aid microsurgical placement of PNGs, a graft holder device was previously developed by our group. In hope for a translational development we now investigate a new biodegradable graft holder device containing PNGs with or without FGF1. Methods: Rats were subjected to a T11 spinal cord resection with subsequent repair using twelve white-to-grey matter oriented PNGs prepositioned in a biodegradable device with or without slow release of FGF1. Animals were evaluated with BBB-score, electrophysiology and immunohistochemistry including anterograde BDA tracing. Results: Motor evoked potentials (MEP) in the lower limb reappeared at 20 weeks after grafting. MEP responses were further improved in the group treated with adjuvant FGF1. Reappearance of MEPs was paralleled by NF-positive fibers and anterogradely traced corticospinal fibers distal to the injury. BBB-scores improved in repaired animals. Conclusions: The results continue to support that the combination of PNGs and FGF1 may be a regeneration strategy to reinnervate the caudal spinal cord. The new device induced robust MEPs augmented by FGF1, and may be considered for translational research.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1235184532
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.3233.RNN-2011-0623