1. Surface delivery of tunable doses of BMP-2 from an adaptable polymeric scaffold induces volumetric bone regeneration.
- Author
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Bouyer M, Guillot R, Lavaud J, Plettinx C, Olivier C, Curry V, Boutonnat J, Coll JL, Peyrin F, Josserand V, Bettega G, and Picart C
- Subjects
- Animals, Bone Morphogenetic Protein 2 chemistry, Bone Regeneration physiology, Delayed-Action Preparations chemistry, Female, Fracture Healing drug effects, Fracture Healing physiology, Rats, Rats, Wistar, Surface Properties, Treatment Outcome, Bone Morphogenetic Protein 2 administration & dosage, Bone Regeneration drug effects, Delayed-Action Preparations administration & dosage, Femoral Fractures physiopathology, Femoral Fractures therapy, Tissue Scaffolds
- Abstract
The rapid and effective bone regeneration of large non-healing defects remains challenging. Bioactive proteins, such as bone morphogenetic protein (BMP)-2, are proved their osteoinductivity, but their clinical use is currently limited to collagen as biomaterial. Being able to deliver BMP-2 from any other biomaterial would broaden its clinical use. This work presents a novel means for repairing a critical size volumetric bone femoral defect in the rat by combining a osteoinductive surface coating (2D) to a polymeric scaffold (3D hollow tube) made of commercially-available PLGA. Using a polyelectrolyte film as BMP-2 carrier, we tune the amount of BMP-2 loaded in and released from the polyelectrolyte film coating over a large extent by controlling the film crosslinking level and initial concentration of BMP-2 in solution. Using microcomputed tomography and quantitative analysis of the regenerated bone growth kinetics, we show that the amount of newly formed bone and kinetics can be modulated: an effective and fast repair was obtained in 1-2 weeks in the best conditions, including complete defect bridging, formation of vascularized and mineralized bone tissue. Histological staining and high-resolution computed tomography revealed the presence of bone regeneration inside and around the tube with spatially distinct organization for trabecular-like and cortical bones. The amount of cortical bone and its thickness increased with the BMP-2 dose. In view of the recent developments in additive manufacturing techniques, this surface-coating technology may be applied in combination with various types of polymeric or metallic scaffolds to offer new perspectives of bone regeneration in personalized medicine., (Copyright © 2016 The Author(s). Published by Elsevier Ltd.. All rights reserved.)
- Published
- 2016
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