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3D printed polylactic acid-based nanocomposite scaffold stuffed with microporous simvastatin-loaded polyelectrolyte for craniofacial reconstruction

Mohamadreza Tavakoli, Hossein Salehi, Rahmatollah Emadi, Jaleh Varshosaz, Sheyda Labbaf, Alexander M. Seifalian, Fariborz Sharifianjazi, Marjan Mirhaj

2023International Journal of Biological Macromolecules47 citationsDOIOpen Access PDF

Abstract

Critical sized craniofacial defects are among the most challenging bone defects to repair, due to the anatomical complexity and aesthetic importance. In this study, a polylactic acid/hardystonite-graphene oxide (PLA/HTGO) scaffold was fabricated through 3D printing. In order to upgrade the 3D printed scaffold to a highly porous scaffold, its channels were filled with pectin-quaternized chitosan (Pec-QCs) polyelectrolyte solution containing 0 or 20 mg/mL of simvastatin (Sim) and then freeze-dried. These scaffolds were named FD and FD-Sim, respectively. Also, similar PLA/HTGO scaffolds were prepared and dip coated with Pec-QCs solution containing 0 or 20 mg/mL of Sim and were named DC and DC-Sim, respectively. The formation of macro/microporous structure was confirmed by morphological investigations. The release of Sim from DC-Sim and FD-Sim scaffolds after 28 days was measured as 77.40 ± 5.25 and 86.02 ± 3.63 %, respectively. Cytocompatibility assessments showed that MG-63 cells had the highest proliferation, attachment and spread on the Sim containing scaffolds, especially FD-Sim. In vivo studies on a rat calvarial defect model revealed that an almost complete recovery occurred in the group treated with FD-Sim scaffold after 8 weeks and the defect was filled with newly formed bone. The results of this study acknowledge that the FD-Sim scaffold can be a perfect candidate for calvarial defect repair.

Topics & Concepts

ScaffoldPolylactic acidMicroporous materialMaterials scienceChitosanSimvastatinCraniofacialBiomedical engineeringChemical engineeringComposite materialPolymerMedicinePsychologyInternal medicinePsychiatryEngineeringBone Tissue Engineering MaterialsGraphene and Nanomaterials ApplicationsElectrospun Nanofibers in Biomedical Applications
3D printed polylactic acid-based nanocomposite scaffold stuffed with microporous simvastatin-loaded polyelectrolyte for craniofacial reconstruction | Litcius