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Extrusion-Printing of Multi-Channeled Two-Component Hydrogel Constructs from Gelatinous Peptides and Anhydride-Containing Oligomers

Jan Krieghoff, J Rost, Caroline Kohn-Polster, Benno Müller, Andreas Köenig, Tobias Flath, Michaela Schulz‐Siegmund, Fritz-Peter Schulze, Michael C. Hacker

2021Biomedicines13 citationsDOIOpen Access PDF

Abstract

The performance of artificial nerve guidance conduits (NGC) in peripheral nerve regeneration can be improved by providing structures with multiple small channels instead of a single wide lumen. 3D-printing is a strategy to access such multi-channeled structures in a defined and reproducible way. This study explores extrusion-based 3D-printing of two-component hydrogels from a single cartridge printhead into multi-channeled structures under aseptic conditions. The gels are based on a platform of synthetic, anhydride-containing oligomers for cross-linking of gelatinous peptides. Stable constructs with continuous small channels and a variety of footprints and sizes were successfully generated from formulations containing either an organic or inorganic gelation base. The adjustability of the system was investigated by varying the cross-linking oligomer and substituting the gelation bases controlling the cross-linking kinetics. Formulations with organic N‑methyl-piperidin-3-ol and inorganic K2HPO4 yielded hydrogels with comparable properties after manual processing and extrusion-based 3D-printing. The slower reaction kinetics of formulations with K2HPO4 can be beneficial for extending the time frame for printing. The two-component hydrogels displayed both slow hydrolytic and activity-dependent enzymatic degradability. Together with satisfying in vitro cell proliferation data, these results indicate the suitability of our cross-linked hydrogels as multi-channeled NGC for enhanced peripheral nerve regeneration.

Topics & Concepts

Self-healing hydrogelsExtrusionOligomerKineticsPolymerizationMaterials scienceRegeneration (biology)Chemical engineeringChemistryCopolymerHydrolysisPolymer chemistryPolymerComposite materialOrganic chemistryCell biologyBiologyEngineeringPhysicsQuantum mechanicsNerve injury and regenerationGraphene and Nanomaterials ApplicationsNeuroscience and Neural Engineering
Extrusion-Printing of Multi-Channeled Two-Component Hydrogel Constructs from Gelatinous Peptides and Anhydride-Containing Oligomers | Litcius