Genipin crosslinking elevates the strength of electrochemically aligned collagen to the level of tendons

Collagen-based tissue mimics are important in clinical research because collagen is the main structural element in tendons. The current study aimed to improve the mechanical strength of Electronically Aligned Collagen (ELAC) threads by optimizing several crosslinking parameters. The results indicated that elevating the concentration of genipin to 2% and the solvent to 90% ethanol significantly enhanced the wet ultimate tensile stress of ELAC threads to 109MPa with a crosslinking degree of 65%. Furthermore, significantly higher adhesion and proliferation of hMSCs was observed in ELAC threads crosslinked with 2% genipin in 90% ethanol compared to 0.625% genipin in 1X PBS. In conclusion, ELAC threads with mechanical strength on par with native tendon have significant potential to be used as scaffolds in tendon tissue engineering applications. [Display omitted] ► The mechanical properties of ELAC threads were similar to those of native tendon. ► Significant proliferation/adhesion of human stem cells on ELAC threads were evidenced. ► PBS solvents decreased the mechanical properties of ELAC threads. ► PBS solvents decreased the proliferation rate of human stem cells on ELAC threads.