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The aim of this work is to prepare nanofibrous scaffolds based on poly (l-lactide-d, l-lactide)/poly (acrylic acid) [PLDLLA/PAAc] blends in the presence of Dexamethasone [Dexa]-loaded poly (2-hydroxyethyl methacrylate) [HEMA] as molecular imprinted polymer [MIP] nanoparticles [NPs] for enhancing osteogenesis. By adding 10 wt% of PAAc to the PLDLLA and employing response surface methodology, the average diameter of the electrospun nanofibers is approximately 237 nm. To increase the osteogenesis performance of the optimized nanofibrous scaffolds, the MIP nanoparticles are synthesized using HEMA monomer and Dexa template with a molar ratio of 10 to 1. Accordingly, these crosslinked drug nanocarriers exhibit an average diameter of around 122 nm and imprinting factor of approximately 1.8, enabling to adsorb Dexa molecules around 57%. Afterward, the Dexa-loaded MIP NPs have capability of a controlled drug release with ultimate value of 60% during 72 h. The simultaneous use of PLDLLA/PAAc-10 nanofibrous scaffold and Dexa-loaded MIP NPs within the cultivation media of fibroblast and mesenchymal stem cells is carried out by thiazolyl blue assay and acridine/ethidium bromide staining as well as alkaline phosphate/calcium content test, and alizarin red staining. The results reveal the remarkable efficiency of the blend nanofibers besides the MIP containing Dexa, thereby using for bone tissue engineering applications, potentially. Copyright © 2020 Elsevier B.V. All rights reserved.

Citation

Pejman Ghaffari-Bohlouli, Payam Zahedi, Mohsen Shahrousvand. Enhanced osteogenesis using poly (l-lactide-co-d, l-lactide)/poly (acrylic acid) nanofibrous scaffolds in presence of dexamethasone-loaded molecularly imprinted polymer nanoparticles. International journal of biological macromolecules. 2020 Dec 15;165(Pt B):2363-2377

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PMID: 33091473

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