Issue 33, 2023

Concentric-mineralized hybrid silk-based scaffolds for bone tissue engineering in vitro models

Abstract

There are many challenges in the development of 3D-tissue models for studying bone physiology and disease. Silk fibroin (SF), a natural fibrous protein used in biomedical applications has been studied for bone tissue engineering (TE) due to its mechanical properties, biocompatibility and biodegradability. However, low osteogenic capacity as well as the necessity to reinforce the protein mechanically for some orthopedic applications prompts the need for further designs for SF-based materials for TE bone. Concentric mineralized porous SF-based scaffolds were developed to improve mechanics and mineralization towards osteoregeneration. Hybrid SF silica microparticles (MP) or calcium carbonate nano-structured microparticles (NMP) were seeded with hMSCs co-cultured under osteogenic and osteoclastic conditions with THP-1 human monocytes up to 10 weeks to simulate and recapitulate bone regeneration. Scaffolds with appropriate pore size for cell infiltration, resulted in improved compressive strength, increased cell attachment and higher levels of expression of osteogenic markers and mineralization after adding the NMPs, compared to controls systems without these particles. These hybrid SF-based 3D-structures can provide improved scaffold designs for in vitro bone TE.

Graphical abstract: Concentric-mineralized hybrid silk-based scaffolds for bone tissue engineering in vitro models

Supplementary files

Article information

Article type
Paper
Submitted
02 Apr 2023
Accepted
21 Jul 2023
First published
24 Jul 2023

J. Mater. Chem. B, 2023,11, 7998-8006

Concentric-mineralized hybrid silk-based scaffolds for bone tissue engineering in vitro models

V. E. Bosio, C. Rybner and D. L. Kaplan, J. Mater. Chem. B, 2023, 11, 7998 DOI: 10.1039/D3TB00717K

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