With the continued development of sports in China, sports sometimes cause cartilage damage. The purpose of this research is to study the tissue engineering scaffold material for sports cartilage damage repair. In this study, mesenchymal rat bone marrow stem cells (to put it simply, stem cells are a type of cell with unlimited or immortal self-renewal capacity, capable of producing at least one type of highly differentiated progeny cells) were obtained by the total bone wash method. The cells were inoculated into the cell culture bottle. When the primary cultured cells proliferated to about 80% of the culture bottle area, the cells were digested with trypsin to open the cell link, then the medium containing 10% serum was added to terminate the cell digestion, and then the passage expansion was carried out according to the cell density. PLGA/NHA and PLGA were heated to 65°C under ultrasonic vibration until uniform PLGA/NHA and PLGA solutions were obtained. Then, the samples were added to the tube mold and then heated and cooled to obtain the composite porous scaffold of mesenchymal stem cells. 10 μl MSCs cell suspension was extracted with a microinjector, and the needle was injected from the inside of the scaffold, and the cell suspension was added outside the scaffold to ensure that there were composite cells inside and outside the scaffold. The subcutaneous tissue of the skin was cut along the medial side of the knee joint and the capsule of the switch segment was cut. The scaffold materials were filled into the osteochondral defect to observe the cartilage healing. The mechanical strength of 0.5% PLGA-MSCs composite porous scaffold was increased to 1.1 MPa, and the cell density was high. The repair of cartilage in rats was the best. The results showed that the porous scaffolds designed in this study have good compatibility and are beneficial to repair sports cartilage injury.
Tissue Engineering Scaffold Materials to Repair Sports Cartilage Injury
