Heparin-modified dendrimer cross-linked collagen matrices for the delivery of basic fibroblast growth factor (FGF-2)

Tissue integration between a tissue-engineered corneal equivalent and the host eye is of critical importance in ensuring long-term implant success. A novel dendrimer cross-linked collagen scaffold has previously shown good corneal epithelial cell compatibility in vitro particularly when the highly functional dendrimer cross-linkers were functionalized to introduce additional biological groups. Herein we investigated heparinization of these materials and their potential to facilitate the delivery of basic fibroblast growth factor (FGF-2) in an active form, ultimately for use as a corneal tissue scaffold. Collagen gels cross-linked with 1-ethyl-3-(3-dimethyl aminopropyl) carbodiimide hydrochloride (EDC) and N-hydroxysuccinimide (NHS) chemistry, and varying amounts of polypropyleneimine octaamine generation 2 (G2) dendimer and heparin were synthesized. Swelling studies and differential scanning calorimetry characterization indicated higher gel stability with the introduction of dendrimer cross-linking, which was not compromised by heparin integration. Dendrimer crosslinked gels with or without heparin gave multiple denaturation peaks, as did the heparinized EDC gels. This is thought to be the result of the heterogeneous cross-linking possible between collagen, the dendrimer and heparin. Release of FGF-2 from collagen gels showed typical first-order kinetics, with an initial burst followed by a prolonged gradual release. Heparinized dendrimer cross-linked gels released approx. 40% of the growth factor over a 2-week period, with significance maintenance of growth factor activity. Incorporation of heparin resulted in somewhat prolonged release from these systems.