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Mg-Sr-Ca containing bioactive glass nanoparticles hydrogel modified mineralized collagen scaffold for bone repair

Yi Sun, Min Shi, Bowen Niu, Xiangyang Xu, Wen Tang Xia, Chao Deng

2024Journal of Biomaterials Applications12 citationsDOI

Abstract

The aim of this study is to explore the therapeutic effects of Mg-Sr-Ca containing bioactive glass nanoparticles sodium alginate hydrogel modified mineralized collagen scaffold (Mg-Sr-Ca-BGNs-SA-MC) on the repair of osteoporotic bone defect. During the study, Mg-Sr-Ca containing bioactive glass nanoparticles (Mg-Sr-Ca-BGNs) were synthesized using the sol-gel method, and the Mg-Sr-Ca-BGNs-SA-MC scaffold was synthesized by a simple method. The Mg-Sr-Ca-BGNs and the Mg-Sr-Ca-BGNs-SA-MC scaffold were observed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The elements of Mg, Sr, Ca and Si were effectively integrated into Mg-Sr-Ca-BGNs. SEM analysis revealed the presence of Mg-Sr-Ca-BGNs on the scaffold's surface. Furthermore, the cytotoxicity of the scaffolds were assessed using a live/dead assay. The result of the live/dead assay demonstrated that the scaffold materials were non-toxic to cell growth. More importantly, the in vivo study indicated that implanted scaffold promoted tissue regeneration and integration with newly formed bone. Overall, the Mg-Sr-Ca-BGNs-SA-MC scaffold is suitable for guided bone regeneration and beneficial to repair of osteoporotic bone defects.

Topics & Concepts

ScaffoldBioactive glassMaterials scienceBone healingTransmission electron microscopyMTT assayScanning electron microscopeNanoparticleNuclear chemistryRegeneration (biology)ChemistryBiomedical engineeringBiophysicsCell growthNanotechnologyAnatomyBiochemistryComposite materialCell biologyMedicineBiologyBone Tissue Engineering MaterialsFacial Trauma and Fracture ManagementLaser Applications in Dentistry and Medicine
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