Evaluation of two cross-linked collagen gels implanted in the transected spinal cord.

In previous experiments, we have shown that spinal axons grow into a collagen matrix implanted between the stumps of a transected spinal cord. However, the matrix became denatured after 2 to 3 months. To improve the stability and the durability of the collagen gel implants, collagen was coprecipitated with chondroitin-6-sulfate (C-6-S) or chemically cross-linked with carbodiimide (CD). The spinal cords were taken out after 3 days, 1, 3, or 6 months and analyzed using different histological and tracing techniques. The cross-linked collagen matrices underwent major structural changes. Cross-linking treatments improved the stability of collagen implants which withstood at least 6 months. Axons revealed with DiI or silver staining crossed the proximal interface and grew into the bioimplants. Some axons were also followed across the distal bioimplant-spinal interface in DiI treated tissues. This study suggests that cross-linking the collagen hydrogel has improved the mechanical properties of the matrix, modified the normal scarring process, and favored axonal regeneration.