Teresa Büttner scite author profile

Materials capable of directing cell fate by providing spatially-graded mechanical and biomolecular cues are critically important in the reconstitution of living matter. Herein, we report a multi-component inkjet bioprinting method that allows for spatially varying composition and network properties in cell-instructive glycosaminoglycan (GAG)-based biohybrid and pure poly(ethylene glycol) hydrogels with unprecedented (50 μm) resolution. The principle relies on the covalent crosslinking of different polymeric precursors through a very rapid bio-orthogonal Michael type addition scheme adjusted in ways to occur during the fusion of bio-ink droplets prior to and upon contact with the target. Exemplary data show that chemotactic molecular gradients produced by this approach within printed GAG-gels of defined zonal architecture can effectively direct migratory activity and morphogenesis of embedded human bone-marrow derived mesenchymal stem cells. The introduced methodology is expected to enable a new, holistic level of control over reductionistic tissue and organoid models.

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Development and characterization of lithium-releasing silicate bioactive glasses and their scaffolds for bone repair

Miguez-Pacheco

Büttner

Maçon

et al. 2016

Journal of Non-Crystalline Solids

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Teresa Büttner

Boron-containing bioactive glasses in bone and soft tissue engineering

High resolution bioprinting of multi-component hydrogels

Development and characterization of lithium-releasing silicate bioactive glasses and their scaffolds for bone repair

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