One-Step Photoactivation of a Dual-Functionalized Bioink as Cell Carrier and Cartilage-Binding Glue for Chondral Regeneration

Khoon S Lim, Florencia Abinzano, Paulina Nuñez Bernal, Ane Albillos Sanchez, Pau Atienza-Roca, Iris A Otto, Quentin C Peiffer, Michiya Matsusaki, Tim B F Woodfield, Jos Malda, Riccardo Levato

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Abstract

Cartilage defects can result in pain, disability, and osteoarthritis. Hydrogels providing a chondroregeneration-permissive environment are often mechanically weak and display poor lateral integration into the surrounding cartilage. This study develops a visible-light responsive gelatin ink with enhanced interactions with the native tissue, and potential for intraoperative bioprinting. A dual-functionalized tyramine and methacryloyl gelatin (GelMA-Tyr) is synthesized. Photo-crosslinking of both groups is triggered in a single photoexposure by cell-compatible visible light in presence of tris(2,2'-bipyridyl)dichlororuthenium(II) and sodium persulfate as initiators. Neo-cartilage formation from embedded chondroprogenitor cells is demonstrated in vitro, and the hydrogel is successfully applied as bioink for extrusion-printing. Visible light in situ crosslinking in cartilage defects results in no damage to the surrounding tissue, in contrast to the native chondrocyte death caused by UV light (365-400 nm range), commonly used in biofabrication. Tyramine-binding to proteins in native cartilage leads to a 15-fold increment in the adhesive strength of the bioglue compared to pristine GelMA. Enhanced adhesion is observed also when the ink is extruded as printable filaments into the defect. Visible-light reactive GelMA-Tyr bioinks can act as orthobiologic carriers for in situ cartilage repair, providing a permissive environment for chondrogenesis, and establishing safe lateral integration into chondral defects.

Original languageEnglish
Article number1901792
Pages (from-to)1-13
JournalAdvanced Healthcare Materials
Volume9
Issue number15
Early online date23 Apr 2020
DOIs
Publication statusPublished - Aug 2020

Keywords

  • biofabrication
  • bioglue
  • bioprinting
  • cartilage tissue engineering
  • tissue integration

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