Biomimetic triumvirate nanogel complexes via peptide-polysaccharide-polyphenol self-assembly

“…Hesperidin was delivered using this coassembled biocompatible tissue-specific hydrogel, which was made of fucoidan laced within a self-assembling peptide backbone. The coassembly of the SAP with fucoidan was reported to improve the mechanical properties (from 9.54 Pa of Fmoc-FRGDF hydrogel to 7735 Pa of coassembled hydrogel at 6 mg/mL fucoidan concentration), form thicker nanofibril bundles at 4 and 6 mg/mL fucoidan concentration, improve the EE of hesperidin from 72.86% of Fmoc-FRGDF hydrogel to over 90% of the coassembled hydrogels, and demonstrate the efficiently controlled release of hesperidin in vitro [22]. However, the physical cross-linking sites in nanogels are unstable because they rely on weak interactions between polymer chains, such as hydrophobic or electrostatic interactions or hydrogen bonds.…”

Single-, Dual-, and Multi-Stimuli-Responsive Nanogels for Biomedical Applications

“…Hesperidin was delivered using this coassembled biocompatible tissue-specific hydrogel, which was made of fucoidan laced within a self-assembling peptide backbone. The coassembly of the SAP with fucoidan was reported to improve the mechanical properties (from 9.54 Pa of Fmoc-FRGDF hydrogel to 7735 Pa of coassembled hydrogel at 6 mg/mL fucoidan concentration), form thicker nanofibril bundles at 4 and 6 mg/mL fucoidan concentration, improve the EE of hesperidin from 72.86% of Fmoc-FRGDF hydrogel to over 90% of the coassembled hydrogels, and demonstrate the efficiently controlled release of hesperidin in vitro [22]. However, the physical cross-linking sites in nanogels are unstable because they rely on weak interactions between polymer chains, such as hydrophobic or electrostatic interactions or hydrogen bonds.…”

Single-, Dual-, and Multi-Stimuli-Responsive Nanogels for Biomedical Applications

Regulated anthocyanin release through novel pH-responsive peptide hydrogels in simulated digestive environment

Chitosan/zein-based sustained-release composite films: Fabrication, physicochemical properties and release kinetics of tea polyphenols from polymer matrix