Objectives: To design an in-situ gelling hydrogel capable of solidifying rapidly under physiologic conditions into a hydrogel capable of adhering tissue surfaces together.
Design: Multifunctional polymers containing covalently bound peptide substrates of transglutaminase were designed.
Experimental variable: Enzyme cross-linked hydrogels were compared with commercial fibrin tissue adhesive.
Outcome measure: The shear strength between tissue surfaces or type 1 collagen membranes bonded with hydrogel was measured.
Results: The shear adhesive strength of transglutaminase cross-linked hydrogels was found to be equal to or better than fibrin sealant for tissue and collagen surfaces, respectively.
Conclusion: Transglutaminase cross-linked hydrogels are injectable, in-situ formed, biodegradable, and expected to be useful in a variety of applications including sustained drug delivery, medical and dental adhesives, tissue repair and engineering as polymeric scaffolds, and gene therapy.