3D printing of gellan‐dextran methacrylate IPNs in glycerol and their bioadhesion by RGD derivatives - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Journal of Biomedical Materials Research Part A Année : 2024

3D printing of gellan‐dextran methacrylate IPNs in glycerol and their bioadhesion by RGD derivatives

Résumé

Abstract The ever‐growing need for new tissue and organ replacement approaches paved the way for tissue engineering. Successful tissue regeneration requires an appropriate scaffold, which allows cell adhesion and provides mechanical support during tissue repair. In this light, an interpenetrating polymer network (IPN) system based on biocompatible polysaccharides, dextran (Dex) and gellan (Ge), was designed and proposed as a surface that facilitates cell adhesion in tissue engineering applications. The new matrix was developed in glycerol, an unconventional solvent, before the chemical functionalization of the polymer backbone, which provides the system with enhanced properties, such as increased stiffness and bioadhesiveness. Dex was modified introducing methacrylic groups, which are known to be sensitive to UV light. At the same time, Ge was functionalized with RGD moieties, known as promoters for cell adhesion. The printability of the systems was evaluated by exploiting the ability of glycerol to act as a co‐initiator in the process, speeding up the kinetics of crosslinking. Following semi‐IPNs formation, the solvent was removed by extensive solvent exchange with HEPES and CaCl 2 , leading to conversion into IPNs due to the ionic gelation of Ge chains. Mechanical properties were investigated and IPNs ability to promote osteoblasts adhesion was evaluated on thin‐layer, 3D‐printed disk films. Our results show a significant increase in adhesion on hydrogels decorated with RGD moieties, where osteoblasts adopted the spindle‐shaped morphology typical of adherent mesenchymal cells. Our findings support the use of RGD‐decorated Ge/Dex IPNs as new matrices able to support and facilitate cell adhesion in the perspective of bone tissue regeneration.

Domaines

Chimie
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Dates et versions

hal-04488395 , version 1 (04-03-2024)

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Luca Paoletti, Francesco Baschieri, Claudia Migliorini, Chiara Di Meo, Olivier Monasson, et al.. 3D printing of gellan‐dextran methacrylate IPNs in glycerol and their bioadhesion by RGD derivatives. Journal of Biomedical Materials Research Part A, 2024, ⟨10.1002/jbm.a.37698⟩. ⟨hal-04488395⟩
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