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Research

SILATED HYDROGELS IN BONE REGENERATIVE MEDICINE

The European Orthopaedic Research Society (EORS) 2018 Meeting, PART 3, Galway, Ireland, September 2018.



Abstract

20 years ago, we designed injectable bioactive suspensions in water of calcium phosphate ceramics for bone and periapical regenerations. Because of leakage of these suspensions, we focused on injectable hydrogels before to set in situ by chemical crosslinking to form 3D scaffolds. We set up a platform to develop a series of innovative hydrogels for bone, cartilages and periodontal tissue regeneration. We based our strategy on polysaccharides macromolecules because they are renewable materials, that originate from biological sources and generally are biocompatible, non-toxic and biodegradable. We developed a family of silated macromolecules able to react forming biocompatible hydrogels. The silated polymers are self-setting hydrogels able to covalently crosslink under pH variation, without addition of toxic crosslinking agent. All these macromolecules could be combined in multicomponent hydrogels, representing a strategy for improving mechanical properties of biomaterials or to tailor particular properties to meet specific needs. For mineral scaffolding, we realized composites of calcium phosphates particles or cements with hydrogel, increasing the ductility and creating macroporous scaffold to propose foam bone cements well adapted to bone biomaterials and Bone tissue engineering. Perspectives are 3D printing and bio printing techniques. We will use our hydrogels platform to prepare tunable (bio)inks in skeletal medicine.


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