A non-covalently cross-linked self-healing hydrogel for drug delivery: characterization, mechanical strength, and anti-cancer potential

Abstract

This research article introduced a novel one-pot method for synthesizing hydrogels, utilizing iron ions (Fe3+) and guar gum succinate (GGS) as cross-linkers. These hydrogels were characterized as cross-linked networks, with hydrogen bonds forming a sacrificial network and coordination bonds serving as the primary network. The reversible nature of these networks was attributed to the hydrogels’ exceptional toughness and remarkable self-healing properties. The hydrogel's chemical structure was confirmed through FTIR spectroscopy. XRD analysis highlighted the disruption of the crystalline nature of GGS upon cross-linking with Fe3+. By controlling the Fe3+ concentration, the hydrogels’ mechanical properties were tailored. Rheological measurements demonstrated mechanical and self-healing properties, while swelling studies revealed pH-dependent behavior. In vitro studies showed the hydrogels’ significant anti-proliferative effect against U-87MG (human glioblastoma) cancer cells, while remaining biocompatible with normal cell lines (HEK-293). These results indicated the potential application of these hydrogels in advancing cancer treatment strategies. © 2024 The Royal Society of Chemistry.