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In vitro and in vivo assessment of a 3D printable gelatin methacrylate hydrogel for bone regeneration applications
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International audience. Abstract Bone tissue engineering (BTE) has made significant progress in developing and assessing different types of bio‐substitutes. However, scaffolds production through standardized methods, as required for good manufacturing process (GMP), and post‐transplant in vivo monitoring still limit their translation into the clinic. 3D printed 5% GelMA scaffolds have been prepared through an optimized and reproducible process in this work. Mesenchymal stem cells (MSC) were encapsulated in the 3D printable GelMA ink, and their biological properties were assessed in vitro to evaluate their potential for cell delivery application. Moreover, in vivo implantation of the pristine 3D printed GelMA has been performed in a rat condyle defect model. Whereas optimal tissue integration was observed via histology, no signs of fibrotic encapsulation or inhibited bone formation were attained. A multimodal imaging workflow based on computed tomography (CT) and magnetic resonance imaging (MRI) allowed the simultaneous monitoring of both new bone formation and scaffold degradation. These outcomes point out the direction to undertake in developing 3D printed‐based hydrogels for BTE that can allow a faster transition into clinical use.
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