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A 3D printed Ga containing scaffold with both anti-infection and bone homeostasis-regulating properties for the treatment of infected bone defects

Minqi Wang, Yiqi Yang, Guanghao Chi, Kai Yuan, Feng Zhou, Dong Liang, Haibei Liu, Qinghui Zhou, Weihua Gong, Shengbing Yang, Tingting Tang

2021Journal of Materials Chemistry B46 citationsDOI

Abstract

Large bone defects face a high risk of infection, which can also lead to bone homeostasis disorders. This seriously hinders the bone healing process; therefore, the help of a dual-functional scaffold that has both anti-infection and bone-homeostasis-regulating capacities is needed in the treatment of infected bone defects. In this study, a 3D printed dual-functional scaffold composed of poly-ε-caprolactone (PCL), mesoporous bioactive glasses (MBG), and gallium (Ga) was produced. In vitro experiments demonstrated the excellent antibacterial ability of the PCL/MBG/Ga scaffold against methicillin-resistant Staphylococcus aureus (MRSA) and Escherichia coli (E. coli). The scaffold also significantly inhibited osteoclastic activity and promoted osteogenic differentiation. Furthermore, a rabbit model with an infected bone defect in the radius was used to evaluate the in vivo bone healing capability of PCL/MBG/Ga. The results demonstrate that the PCL/MBG/Ga scaffold can significantly accelerate bone healing and prevent bone resorption, suggesting its potential for application in repairing infected bone defects.

Topics & Concepts

ScaffoldHomeostasis3d printedCell biologyMaterials scienceMedicineBiologyBiomedical engineeringBone Tissue Engineering MaterialsOrthopedic Infections and Treatments3D Printing in Biomedical Research
A 3D printed Ga containing scaffold with both anti-infection and bone homeostasis-regulating properties for the treatment of infected bone defects | Litcius