Litcius/Paper detail

3D-printed scaffold combined to 2D osteoinductive coatings to repair a critical-size mandibular bone defect

M. Bouyer, Charlotte Garot, Paul Machillot, Julien Vollaire, Vincent Fitzpatrick, Sanela Morand, Jean Boutonnât, Véronique Josserand, G. Bettega, Catherine Picart

2021Materials Today Bio42 citationsDOIOpen Access PDF

Abstract

) remains a challenge for clinicians. We developed a new critical-size mandibular bone defect model on a minipig, close to human clinical issues. We analyzed the bone reconstruction obtained by a 3D-printed scaffold made of clinical-grade polylactic acid (PLA), coated with a polyelectrolyte film delivering an osteogenic bioactive molecule (BMP-2). We compared the results (computed tomography scans, microcomputed tomography scans, histology) to the gold standard solution, bone autograft. We demonstrated that the dose of BMP-2 delivered from the scaffold significantly influenced the amount of regenerated bone and the repair kinetics, with a clear BMP-2 dose-dependence. Bone was homogeneously formed inside the scaffold without ectopic bone formation. The bone repair was as good as for the bone autograft. The BMP-2 doses applied in our study were reduced 20- to 75-fold compared to the commercial collagen sponges used in the current clinical applications, without any adverse effects. Three-dimensional printed PLA scaffolds loaded with reduced doses of BMP-2 may be a safe and simple solution for large bone defects faced in the clinic.

Topics & Concepts

Scaffold3d printedBiomedical engineeringBone formationMaterials scienceHistologyPolylactic acidBone growthDentistryMedicinePathologyComposite materialEndocrinologyInternal medicinePolymerBone Tissue Engineering MaterialsPeriodontal Regeneration and TreatmentsOrthopaedic implants and arthroplasty