International journal of biological macromolecules

3D-printed bone-like scaffold with fast mineral growth and cell safety for bone repair

Updated

Abstract

The pore size of the 3D printed PLA/MBG composite scaffolds falls in the range of 500-700 μm, suitable for bone cell growth.

  • Mixed matrix scaffolds based on poly (L-lactic acid) and mesoporous bioactive glass were developed to improve bone tissue engineering.
  • The formulation used was a 30:70 weight ratio of poly (L-lactic acid) to mesoporous bioactive glass.
  • Mechanical analysis demonstrated superior compressive modulus and yield strength for the PLA/MBG composite compared to neat PLA.
  • In-vitro bioactivity assessment indicated rapid apatite crystallization, achieving a Ca/P ratio of 1.66 within 3 days of treatment.
  • The 3D bioprinted scaffolds showed positive results in cell attachment, proliferation, mineralization, and gene expression with MG-63 osteosarcoma cells.

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