A designed supramolecular cross-linking hydrogel for the direct, convenient, and efficient administration of hydrophobic drugs.

Abstract

Hydrogels formed through reversible supramolecular interactions may attain self-healing in the in situ environment. However, the low grafting degree of functional groups and steric hindrance effect of polymer backbones significantly reduced the self-healing efficacy and kinetics. To overcome these deficiencies, we designed a novel hydrogel via non-covalent host-guest interaction between β-cyclodextrin modified hyaluronic acid (HA-CD) and adamantane modified 4-arm-PEG (4-arm-PEG-Ad). The multi-armed monomer enabled to increase the number of functional groups and avoid steric hindrance effects, offering more efficient host-guest interaction. The insoluble dexamethasone could be loaded in the β-CDs' hydrophobic cavities. The designed hydrogels exhibited excellent self-healing properties. The mechanical strengths, swelling rate and release of dexamethasone could be adjusted by adding 4-arm-PEG-Ad. The novel hydrogels significantly improved the therapeutic effect of the dexamethasone in burn wound healing. Herein, these hydrogels had great potential for direct, convenient, and efficient delivery of hydrophobic drugs and improved their therapeutic effects.