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The healing of bone defects by cell-free and stem cell-seeded 3D-printed PLA tissue-engineered scaffolds

Marjan Bahraminasab, Athar Talebi, Nesa Doostmohammadi, Samaneh Arab, Ali Ghanbari, Sam Zarbakhsh

2022Journal of Orthopaedic Surgery and Research24 citationsDOIOpen Access PDF

Abstract

In this paper, the in-vivo healing of critical-sized bony defects by cell-free and stem cell-seeded 3D-printed PLA scaffolds was studied in rat calvaria bone. The scaffolds were implanted in the provided defect sites and histological analysis was conducted after 8 and 12 weeks. The results showed that both cell-free and stem cell-seeded scaffolds exhibited superb healing compared with the empty defect controls, and new bone and connective tissues were formed in the healing site after 8 and 12 weeks, postoperatively. The higher filled area, bone formation and bone maturation were observed after 12 weeks, particularly for PLA + Cell scaffolds.

Topics & Concepts

CalvariaBone healingMedicineStem cellConnective tissueTissue engineeringBiomedical engineeringIn vivoAnatomyPathologyCell biologyIn vitroBiologyBiotechnologyBiochemistryBone Tissue Engineering Materialsbiodegradable polymer synthesis and propertiesBone and Dental Protein Studies
The healing of bone defects by cell-free and stem cell-seeded 3D-printed PLA tissue-engineered scaffolds | Litcius