结冷胶
自愈水凝胶
弹性蛋白
纳米复合材料
再生(生物学)
生物材料
化学
高分子科学
材料科学
生物医学工程
复合材料
高分子化学
纳米技术
医学
细胞生物学
食品科学
病理
生物
作者
Giuseppe Barberi,Annalisa Martorana,Fabio Salvatore Palumbo,Cinzia Maria Chinnici,Giovanna Pitarresi,Calogero Fiorica
标识
DOI:10.1002/mabi.202500324
摘要
Irregular bone defects present a major challenge in clinical treatment. Traditional bone grafts are often used but come with limitations, including poor conformity to defect shapes and incomplete healing. Injectable hydrogels have emerged as a promising alternative, as they can completely fill defects and conform to irregular geometries. In this study, injectable hydrogels were developed using methacrylated gellan gum and soluble elastin derivatives. These polysaccharide/protein-based materials exhibit shear-thinning behavior and can be photo-crosslinked in situ, as confirmed by rheological analysis. The hydrogels are easily administered into irregular bone defects and solidified with light, resulting in improved stability and viscoelastic properties. Elastin derivatives enhance cell adhesion, supporting cell colonization. To further promote bone regeneration, ZnO and β-tricalcium phosphate (β-TCP) nanoparticles were incorporated into the hydrogel matrix. These bioactive fillers impart osteoconductive and osteoinductive properties without altering the mechanical integrity of the base material. Notably, β-TCP scaffolds modulated alkaline phosphatase activity in mesenchymal stromal cells, and ZnO further boosted this osteogenic marker. Overall, these injectable, photo-crosslinkable hydrogels offer a versatile platform for bone tissue engineering by functioning as defect fillers and bioactive scaffolds, supporting both structural and biological requirements for bone regeneration.
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