The ability to create artificial thick tissues is a major tissue engineering problem,requiring the formation of a suitable vascular supply.In this work we examined the ability of inducing angiogenesis in a bioactive hydrogel.GYIGSRG(NH 2-Gly-Tyr-IleGly-Ser-Arg-Gly-COOH,GG) has been conjugated to sodium alginate(ALG) to synthesize a biological active biomaterial ALG-GG.The product was characterized by 1 H NMR,FT-IR and elemental analysis.A series of CaCO 3 /ALG-GG composite hydrogels were prepared by crosslinking ALG-GG with D-glucono-lactone/calcium carbonate(GDL/CaCO 3) in different molar ratios.The mechanical strength and swelling ratio of the composite hydrogels were studied.The results revealed that both of them can be regulated under different preparation conditions.Then,CaCO 3 /ALG-GG composite hydrogel was implanted in vivo to study the ability to induce angiogenesis.The results demonstrated that ALG-GG composited hydrogel can induce angiogenesis significantly compared with non-modified ALG group,and it may be valuable in the development of thick tissue engineering scaffold.
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