Nano-laponite encapsulated coaxial fiber scaffold promotes endochondral osteogenesis

Abstract Osteoinductive supplements without side effects stand out from the growth factors and drugs widely used in bone tissue engineering. Lithium magnesium sodium silicate hydrate (laponite) nanoflake is a promising bioactive component for bone regeneration, attributed to its inherent biosafety a...

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Bibliographic Details
Published in:Regenerative biomaterials 2024, Vol.11
Main Authors: Yuan, Li, Wei, Jiawei, Xiao, Shiqi, Jin, Shue, Xia, Xue, Liu, Huan, Liu, Jiangshan, Hu, Jiaxin, Zuo, Yi, Li, Yubao, Yang, Fang, Li, Jidong
Format: Article
Language:English
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Summary:Abstract Osteoinductive supplements without side effects stand out from the growth factors and drugs widely used in bone tissue engineering. Lithium magnesium sodium silicate hydrate (laponite) nanoflake is a promising bioactive component for bone regeneration, attributed to its inherent biosafety and effective osteoinductivity. Up to now, the in vivo osteogenic potential and mechanisms of laponite-encapsulated fibrous membranes remain largely unexplored. This study presents a unique method for homogeneously integrating high concentrations of laponite RDS into a polycaprolactone (PCL) matrix by dispersing laponite RDS sol into the polymer solution. Subsequently, a core-shell fibrous membrane (10RP-PG), embedding laponite-loaded PCL in its core, was crafted using coaxial electrospinning. The PCL core’s slow degradation and the shell’s gradient degradation enabled the sustained release of bioactive ions (Si and Mg) from laponite. In vivo studies on a critical-sized calvarial bone defect model demonstrated that the 10RP-PG membrane markedly enhanced bone formation and remodeling by accelerating the process of endochondral ossification. Further transcriptome analysis suggested that osteogenesis in the 10RP-PG membrane is driven by Mg and Si from endocytosed laponite, activating pathways related to ossification and endochondral ossification, including Hippo, Wnt and Notch. The fabricated nanocomposite fibrous membranes hold great promise in the fields of critical-sized bone defect repair. Graphical Abstract
ISSN:2056-3426
2056-3418
2056-3426
DOI:10.1093/rb/rbae080