Catechol-Functionalized Chitosan/Pluronic Hydrogels for Tissue Adhesives and Hemostatic Materials

Citations Over TimeTop 1% of 2011 papers

Abstract

Bioinspired from adhesion behaviors of mussels, injectable and thermosensitive chitosan/Pluronic composite hydrogels were synthesized for tissue adhesives and hemostatic materials. Chitosan conjugated with multiple catechol groups in the backbone was cross-linked with terminally thiolated Pluronic F-127 triblock copolymer to produce temperature-sensitive and adhesive sol-gel transition hydrogels. A blend mixture of the catechol-conjugated chitosan and the thiolated Pluronic F-127 was a viscous solution state at room temperature but became a cross-linked gel state with instantaneous solidification at the body temperature and physiological pH. The adhesive chitosan/Pluronic injectable hydrogels with remnant catechol groups showed strong adhesiveness to soft tissues and mucous layers and also demonstrated superior hemostatic properties. These chitosan/Pluronic hydrogels are expected to be usefully exploited for injectable drug delivery depots, tissue engineering hydrogels, tissue adhesives, and antibleeding materials.

Related Papers

• → Bioinspired double network hydrogels: from covalent double network hydrogelsviahybrid double network hydrogels to physical double network hydrogels(2020)490 cited
• → Gellan gum microgel-reinforced cell-laden gelatin hydrogels(2013)58 cited
• → Hydrogen bonding and crystal packing trends in tetraalkylammonium halide—catechol complexes: synthesis, spectroscopic and crystal structure studies of Me4NC1—catechol, Et4NCl—catechol, Et4NBr—catechol and Pr4NBr—catechol complexes(1986)15 cited
• Gellan gum microgel-reinforced cell-laden gelatin hydrogels(2013)