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Polycaprolactone/Beta-Tricalcium Phosphate Scaffolds Obtained via Rotary Jet-Spinning: in vitro and in vivo Evaluation

Stella Aparecida de Andrade Pinto, Francisco José de Nadai Dias, Guinéa Brasil Camargo Cardoso, Arnaldo Rodrigues Santos, Andréa Aparecida de Aro, Danilo Siqueira Pino, Damaris Helena Meneghetti, Rafael Pino Vitti, Gláucia Maria Tech dos Santos, Cecília Amélia de Carvalho Zavaglia

2021Cells Tissues Organs20 citationsDOI

Abstract

This study aimed to evaluate in vitro and in vivo polymeric membranes obtained by a rotary jet-spinning process for the repair of critical bone defects in the calvaria of Wistar rats, for future use in tissue engineering. Experimental sample collections were performed on the 30, 60 and 90th postoperative days, and the analyses performed were histomorphometric, immunohistochemistry, and western blotting. Reducing inflammatory infiltrate in all groups and experimental periods, angiogenesis on the 30th day did not show any difference between the groups, on the 60th day, 5% polycaprolactone/beta-tricalcium phosphate(PCL/β-TCP) was high compared to control (C), and on the 90th day, the same group reduced when compared to C and 10% PCL/β-TCP. The fibroplasia presented oscillations in every segment; on the 30th and 60th day, there was an increase in 5% PCL/β-TCP, which decreased by the 90th day compared to group C. 10% PCL/β-TCP decreased compared to C on the 60th and 90th day. The percentage of the collagen area remained high in all groups and all experimental periods. Immunohistochemistry quantifications showed variations in bone metabolism suggesting new bone formation. The 5 and 10% PCL/β-TCP scaffold were promising for the bone regeneration process because they participated in the modulation of inflammation, angiogenesis, fibroplasia, and collagenosis.

Topics & Concepts

CalvariaIn vivoAngiogenesisPolycaprolactoneChemistryIn vitroImmunohistochemistryBiomedical engineeringCalciumPathologyMedicineInternal medicineBiologyBiochemistryPolymerBiotechnologyOrganic chemistryBone Tissue Engineering MaterialsElectrospun Nanofibers in Biomedical ApplicationsPeriodontal Regeneration and Treatments