Biomechanical properties of a decellularized scaffold of lyophilized bovine tendon / 中国组织工程研究

ABSTRACT

BACKGROUND:Current decelularized methods have the certain damage to the extracelular matrix and reduce the biomechanical properties of acelular scaffolds. OBJECTIVE:To explore the biomechanical properties of decelularized scaffold of lyophilized bovine tendon. METHODS:Sixty lyophilized fiber bundles from fresh flexion tendon of calf toes were randomly divided into two groups control group and experimental group. In the experimental group, serine protease inhibitors were placed asepticaly for 24 hours at room temperature, then the samples were rinsed with PBS and transferred to the low concentration of trypsin+ethanol mixed solution to remove the cel wal without destruction of the extracelular matrix at room temperature for 5 hours; after that, the fiber bundles were cultured in DNA enzyme solution for 5 hours, finaly the acelular scaffold was completed and rinsed with PBS for 48 hours and dried at room temperature in sterile room. No treatment was done in the control group. Modulus of elasticity, durability and maximum stress were determined in the two groups. RESULTS AND CONCLUSION:Similar elastic modulus and durability were found in the two groups, but the maximum stress in the experimental group was significantly lower than that in the control group (P < 0.01). These findings indicate that the lyophilized acelular tendon fibers can mimic the biological function of bovine tendon fibers to a certain extent.