Journal of International Medical Research (Mar 2024)

research on 3D-printed composite PLGA and PDLLA-HA absorbable scaffolds for repairing radius defects in rabbits

  • Shouyin Lv,
  • Xu Liu,
  • Jiang Sui,
  • Congjia Bai,
  • Boxi Fan,
  • Wenlong Zhang,
  • Pingping Yuan,
  • Jiwen Zhu,
  • Jianbin Li,
  • Bo Shao

DOI
https://doi.org/10.1177/03000605241233418
Journal volume & issue
Vol. 52

Abstract

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Objectives Despite being an important research topic in oral biomaterials, few studies have demonstrated the differences between poly( d , l -lactide-co-glycolide)/hydroxyapatite (PLGA/HA) and poly( d , l -lactic acid)/hydroxyapatite (PDLLA/HA). In this study, PLGA/HA and PDLLA/HA scaffolds were prepared using three-dimensional (3D) printing technology and implanted into radius defects in rabbits to assess their effects on bone regeneration. Methods In this study, 6 mm × 4 mm bone defects were generated in the bilateral radii of rabbits. 3D-printed PLGA/HA and PDLLA/HA scaffolds were implanted into the defects. X-ray imaging, micro-computed tomography, and hematoxylin–eosin staining were performed to observe the degradation of the materials, the presence of new bone, and bone remodeling in the bone defect area. Results The PLGA/HA scaffolds displayed complete degradation at 20 weeks, whereas PDLLA/HA scaffolds exhibited incomplete degradation. Active osteoblasts were detected in both groups. The formation of new bone, bone marrow cavity reconstruction, and cortical bone remodeling were better in the PLGA/HA group than in the PDLLA/HA group. Conclusions PLGA/HA scaffolds performed better than PDLLA/HA scaffolds in repairing bone defects, making the former scaffolds more suitable as bone substitutes at the same high molecular weight.