Extracellular matrix-mimetic ink for 3D printing and minimally invasive delivery of shape-memory constructs
Shima Tavakoli, Dimitra Pouloutidou, Oommen P. Oommen, Oommen P. Varghese

TL;DR
A new 3D printable hydrogel ink mimics the extracellular matrix and allows for minimally invasive implantation of shape-memory scaffolds that support stem cell growth.
Contribution
A novel gallic acid-modified hyaluronic acid ink for 3D printing with shape-memory properties and minimally invasive delivery is introduced.
Findings
The ink enables 3D printing through fine nozzles and retains geometry post-injection.
The scaffolds support stem cell coating and modulate stemness and differentiation.
Chondrogenic differentiation toward cartilage-like constructs was achieved using TGF-β3.
Abstract
Direct injection of hydrogels loaded with therapeutics holds great promise for tissue regeneration; however, injectable hydrogels typically fill defect spaces without spatiotemporal control, which is critical for regenerating certain tissues. Conversely, 3D printing enables the fabrication of patterned hydrogel constructs but often requires invasive surgical implantation. Here, we present a novel strategy for the non-invasive delivery of 3D-printed constructs. Specifically, we developed gallic acid-modified hyaluronic acid (HA) that was crosslinked for the first time using potassium iodide (KI) as a catalyst, without the need for an initiator or light exposure. This also enabled protein conjugation with gelatin and collagen to obtain an extracellular matrix (ECM)-mimetic ink for 3D printing. We determined the distinct pKa values of the phenolic hydroxy groups of gallol-modified HA,…
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Taxonomy
Topics3D Printing in Biomedical Research · Hydrogels: synthesis, properties, applications · Tissue Engineering and Regenerative Medicine
