International journal of biological macromolecules

A naringin-releasing gelatin and silk-based scaffold helps heal large spine bone defects in rats without ovaries

Updated

Abstract

A 3-mm defect in L6 developed in 60 SD rats showed that NG/GMs/nHA/SF scaffolds promoted repair of bone defects in osteoporotic rats.

  • NG/GMs/nHA/SF scaffolds exhibited good biocompatibility and biomechanical strength.
  • The scaffolds promoted adhesion, proliferation, and calcium nodule formation of bone marrow stem cells in vitro.
  • Greater osteogenic differentiation potential was observed with NG/GMs/nHA/SF scaffolds compared to other scaffold types.
  • Gradual new bone formation was seen in vivo at 16 weeks post-surgery in the experimental group.
  • In the blank group, limited bone formation was observed, highlighting the scaffolds' effectiveness.

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