Hydroxyapatite Chitosan Gradient Pore Scaffold Activates Oxidative Phosphorylation Pathway to Induce Bone Formation

Hydroxyapatite Chitosan Gradient Pore Scaffold Activates Oxidative Phosphorylation Pathway to Induce Bone Formation

Background: In this study, we prepared a porous gradient scaffold with hydroxyapatite microtubules (HAMT) and chitosan (CHS) and investigated osteogenesis induced by these scaffolds. Methods: The arrangement of...

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Bibliographic Details
Main Authors: Zeliang Zhang, Wei Shang, Lisong Lin
Format: Article
Language:English
Published: IMR Press 2025-01-01
Series:Frontiers in Bioscience-Landmark
Subjects:
osteogenesis
hydroxyapatite
chitosan
pore scaffold
oxidative phosphorylation
Online Access:https://www.imrpress.com/journal/FBL/30/1/10.31083/FBL26299
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Summary:Background: In this study, we prepared a porous gradient scaffold with hydroxyapatite microtubules (HAMT) and chitosan (CHS) and investigated osteogenesis induced by these scaffolds. Methods: The arrangement of wax balls in the mold can control the size and distribution of the pores of the scaffold, and form an interconnected gradient pore structure. The scaffolds were systematically evaluated in vitro and in vivo for biocompatibility, biological activity, and regulatory mechanisms. Results: The porosity of the four scaffolds was more than 80%. The 50% and 70% HAMT-CHS scaffolds formed an excellent gradient pore structure, with interconnected pores. Furthermore, the 70% HAMT-CHS scaffold showed better anti-compressive deformation ability. In vitro experiments indicated that the scaffolds had good biocompatibility, promoted the expression of osteogenesis-related genes and proteins, and activated the oxidative phosphorylation pathway to promote bone regeneration. Eight weeks after implanting the HAMT-CHS scaffold in rat skull defects, new bone formation was observed in vivo by micro-computed tomographic (CT) staining. The obtained data were statistically analyzed, and the p-value < 0.05 was statistically significant. Conclusion: HAMT-CHS scaffolds can accelerate osteogenesis in bone defects, potentially through the activation of the oxidative phosphorylation pathway. These results highlight the potential therapeutic application of HAMT-CHS scaffolds.
ISSN:2768-6701

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