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1.  Accuracy of Motor Axon Regeneration Across Autograft, Single Lumen, and Multichannel Poly(lactic-co-glycolic Acid) (PLGA) Nerve Tubes 
Neurosurgery  2008;63(1):144-155.
Objective
Accuracy of motor axon regeneration becomes an important issue in the development of a nerve tube for motor nerve repair. Dispersion of regeneration across the nerve tube may lead to misdirection and polyinnervation. In this study, we present a series of methods to investigate the accuracy of regeneration, which we used to compare regeneration across autografts and single lumen poly(lactic-co-glycolic acid) (PLGA) nerve tubes. We also present the concept of the multichannel nerve tube that may limit dispersion by separately guiding groups of regenerating axons.
Methods
Simultaneous tracing of the tibial and peroneal nerves with fast blue (FB) and diamidino yellow (DY), 8 weeks after repair of a 1-cm nerve gap in the rat sciatic nerve, was performed to determine the percentage of double-projecting motoneurons. Sequential tracing of the peroneal nerve with DY 1 week before and FB 8 weeks after repair was performed to determine the percentage of correctly directed peroneal motoneurons.
Results
In the cases in which there was successful regeneration across single lumen nerve tubes, more motoneurons had double projections to both the tibial and peroneal nerve branches after single lumen nerve tube repair (21.4%) than after autograft repair (5.9%). After multichannel nerve tube repair, this percentage was slightly reduced (16.9%), although not significantly. The direction of regeneration was nonspecific after all types of repair.
Conclusion
Retrograde tracing techniques provide new insights into the process of regeneration across nerve tubes. The methods and data presented in this study can be used as a basis in the development of a nerve tube for motor nerve repair.
doi:10.1227/01.NEU.0000335081.47352.78
PMCID: PMC3463233  PMID: 18728579
misdirection; axon targeting; double labeling; peripheral nerve regeneration; rat sciatic nerve model; retrograde tracing
2.  Relationship between Scaffold Channel Diameter and Number of Regenerating Axons in the Transected Rat Spinal Cord 
Acta biomaterialia  2009;5(7):2551-2559.
Regeneration of endogenous axons through a Schwann cell (SC)-seeded scaffold implant has been demonstrated in the transected rat spinal cord. The formation of a cellular lining in the scaffold channel may limit the degree of axonal regeneration. Spinal cords of adult rats were transected and implanted with the SC-loaded polylactic co-glycollic acid (PLGA) scaffold implants containing seven parallel-aligned channels, either 450-μm (n=19) or 660-μm in diameter (n=14). Animals were sacrificed after 1, 2, and 3 months. Immunohistochemistry for neurofilament-expression was performed. The cross-sectional area of fibrous tissue and regenerative core was calculated. We found that the 450-μm scaffolds had significantly greater axon fibers per channel at the one month (186 ± 37) and three month (78 ± 11) endpoints than the 660-μm scaffolds (90 ± 19 and 40 ± 6, respectively) (P=0.0164 & 0.0149, respectively). The difference in the area of fibrous rim between the 450-μm and 660-μm channels was most pronounced at the one month endpoint, at 28,046 μm2 ± 6,551 and 58,633 μm2 ± 7,063, respectively (P=0.0105). Our study suggests that fabricating scaffolds with smaller diameter channels promotes greater regeneration over larger diameter channels. Axonal regeneration was reduced in the larger channels due to the generation of a large fibrous rim. Optimization of this scaffold environment establishes a platform for future studies of the effects of cell types, trophic factors or pharmacological agents on the regenerative capacity of the injured spinal cord.
doi:10.1016/j.actbio.2009.03.021
PMCID: PMC2731813  PMID: 19409869
Biomedical Engineering; Tissue Development and Growth; Central Nervous System; Polymeric Scaffolds

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