Towards the 3D printing of innovative hydrogel scaffolds through vat polymerization techniques using methacrylated carboxymethylcellulose aqueous formulations - Institut National de l'Energie Solaire
Article Dans Une Revue Progress in Additive Manufacturing Année : 2024

Towards the 3D printing of innovative hydrogel scaffolds through vat polymerization techniques using methacrylated carboxymethylcellulose aqueous formulations

Résumé

Two vat polymerization techniques were evaluated to print innovative hydrogel scaffolds for tissue engineering, from aqueous photo-crosslinkable formulations based on methacrylated carboxymethylcellulose (mCMC). A first formulation containing 2 wt% mCMC with a methacrylation degree (DM) of 34 % and lithium phenyl-2,4,6-trimethylbenzoylphosphinate (LAP) as photoinitiator was specifically developed for Digital Light Processing (DLP). Considering their viscoelastic properties measured by shear rheology, the DLP-printed hydrogels were proposed for soft tissue repair. Interestingly, the swelling ratio and shape of the printed hydrogels were found to be preserved when immersed in a physiological environment. While DLP-printed hydrogels demonstrated impressive Xand Y-resolutions (85 µm), they were limited in producing hollow objects in the Z direction. To address this limitation, the 3D printing of complex mCMC hydrogels through Two-Photon Polymerization (TPP) was investigated for the first time, using a second formulation composed of 4 wt% mCMC (DM = 50 %). 3D scaffolds with cavities of 30 µm were successfully printed with a resolution of 10 µm, paving the way for the design of scaffolds with controlled and precise structures, for soft tissue engineering.
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lundi 10 février 2025
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Dates et versions

hal-04697322 , version 1 (13-09-2024)

Identifiants

Citer

Lénaïc Soullard, Angélique Schlepp, Raphaël Buret, Christine Lancelon-Pin, Guillaume Nonglaton, et al.. Towards the 3D printing of innovative hydrogel scaffolds through vat polymerization techniques using methacrylated carboxymethylcellulose aqueous formulations. Progress in Additive Manufacturing, inPress, ⟨10.1007/s40964-024-00744-4⟩. ⟨hal-04697322⟩
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