Using gelatin/curcumin nano-fiber membranes as scaffolds in a subcutaneous model for tissue engineered cartilages.

Engineered cartilage has several applications in treating cartilage ossification, however, its use is restricted clinically. We explored the feasibility of engineered cartilage in constructing tissues using gelatin/curcumin nano-fiber membranes as scaffolds in subcutaneous models. We constructed cartilage with gelatin nano-fiber membrane (control group) and gelatin/curcumin nano-fiber membrane (experimental group) as scaffolds. After the material was implanted into the back of BALB/c mice, gross view observation was performed. Histological examination was performed 3 and 12 weeks after implantation in vivo, and cartilage formation at different time points was compared. Gross observation showed that compared to the control group, the vascularization of nearby tissues in the experimental group was significantly inhibited. The Scanning electron microscope observation showed that the chondrocytes in both groups adhered well. The growth curve of the chondrocytes showed that curcumin had no significant effect on cell growth. Histological observation showed that the cell-material complexes in both groups had cartilage lacuna formation at 3 and 12 weeks. However, compared with that of the control group, the experimental group showed obvious absorption and thicker cartilage matrix with more homogenization. Gelatin/curcumin scaffolds were successfully used to construct engineered cartilage tissues in subcutaneous animal models. Our findings demonstrate that curcumin-loaded scaffolds have great clinical applications.