35 results about "Cells bone" patented technology

The present invention relates to: a method of preparing an osteoblast from a somatic cell of a mammal, the method including introducing a bone-related gene or an expression product thereof and a reprogramming-related gene or an expression product thereof, or introducing a reprogramming-related gene or an expression product thereof independently into the somatic cell, the bone-related gene including at least one kind selected from the group consisting of Runx2 (R), Osterix (O), and Dlx5 (D), the reprogramming-related gene including at least one kind selected from the group consisting of Oct family, c-Myc (M), L-Myc (L), Klf family, Lin-28, and Sox2; and an osteoblast prepared by the method.

The invention discloses a preparation method of an acellular periosteum matrix gel material derived from natural tissues. The invention uses the acellular periosteum matrix derived from mammals to be freeze-dried to maximize the retention of biologically active molecules; and grinds it into powder, Control the particle size of the powder, increase the contact area of ​​the solution to accelerate digestion, and obtain a standardized and uniform acellular periosteum matrix gel with good osteogenic activity potential. In addition, cross-linking growth factors through EDC has a good effect on promoting the excellent regeneration and vascularization of new bone tissue. It can be used to repair bone defects caused by various etiologies in clinic, bone nonunion and other bone regeneration disorders.

The invention belongs to the technical field of bone-tendon interface injury repair, and specifically relates to regional stem cell-induced activity decellularized bone-tendon interface leaf support, specifically comprising: step 1, obtaining hBMP-2, hTGF-β3 and hGDF-7, and preparing 100ng / ml working solution of hBMP-2, hTGF-β3 and hGDF-7; Step 2, preparation of hBMP-2, hTGF-β3 and hGDF-7 slow-release colostrum; Step 3, preparation of double bionic decellularized bone tendon interface leaf scaffold ; Step 4, preparation of regional directional induced slow-release decellularized bone tendon interface leaf scaffold; step 5, preparation of regional stem cell-induced activity decellularized bone tendon interface leaf scaffold; providing a natural and natural shape for clinical bone tendon interface reconstruction A new type of tissue engineering graft with reliable mechanics and excellent activity can achieve rapid and high-quality healing after bone-tendon interface injury.

The invention discloses a bone filling adhesive which has good biocompatibility and is convenient to implant, and a preparation method of the bone filling adhesive as well as application of the bone filling adhesive. The bone filling adhesive is characterized by being made from PLGA (poly(lactic-co-glycolic acid)), ethyl acetate, biological glue, a phosphate buffer and distilled water serving as raw materials according to the ratio, wherein ethyl acetate can be replaced by acetone or dichloromethane, the bone filling adhesive is prepared by the steps of dissolving PLGA intoethyl acetate or acetone or dichloromethane, and dissolving the biological glue into the phosphate buffer. The bone filling adhesive is added into a solvent, and after being dissolved, the bone filling adhesive is implanted in an injection manner. The bone filling adhesive has the beneficial effects that when bone fractures are treated, the bone filling adhesive is added into the solvent and the mixture is implanted in an injection manner by utilizing good biodegradability and biocompatibility of the PLGA and the biological glue, and the implantation manner is accurate, convenient and fast; the bone filling adhesive is capable of promoting and adjusting growth and differentiation of subperiosteal peripheral cells, accelerating formation of bone matrixes and a mineralizing biological mechanism, quickly healing the bone fractures and quickly fixing and supporting bone fracture parts; and the bone filling adhesive can be proliferated and disintegrated into bone generating cells, has good bone conduction property and is absorbed into bone fracture areas to form calluses and further repair the bone fractures.