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Biomacromolecules ; 25(6): 3566-3582, 2024 Jun 10.
Article in English | MEDLINE | ID: mdl-38780026

ABSTRACT

Diabetic foot ulcers (DFUs), a prevalent complication of diabetes mellitus, may result in an amputation. Natural and renewable hydrogels are desirable materials for DFU dressings due to their outstanding biosafety and degradability. However, most hydrogels are usually only used for wound repair and cannot be employed to monitor motion because of their inherent poor mechanical properties and electrical conductivity. Given that proper wound stretching is beneficial for wound healing, the development of natural hydrogel patches integrated with wound repair properties and motion monitoring was expected to achieve efficient and accurate wound healing. Here, we designed a dual-network (chitosan and sodium alginate) hydrogel embedded with lignin-Ag and quercetin-melanin nanoparticles to achieve efficient wound healing and motion monitoring. The double network formed by the covalent bond and electrostatic interaction confers the hydrogel with superior mechanical properties. Instead of the usual chemical reagents, genipin extracted from Gardenia was used as a cross-linking agent for the hydrogel and consequently improved its biosafety. Furthermore, the incorporation of lignin-Ag nanoparticles greatly enhanced the mechanical strength, antibacterial efficacy, and conductivity of the hydrogel. The electrical conductivity of hydrogels gives them the capability of motion monitoring. The motion sensing mechanism is that stretching of the hydrogel induced by motion changes the conductivity of the hydrogel, thus converting the motion into an electrical signal. Meanwhile, quercetin-melanin nanoparticles confer exceptional adhesion, antioxidant, and anti-inflammatory properties to the hydrogels. The system ultimately achieved excellent wound repair and motion monitoring performance and was expected to be used for stretch-assisted safe and accurate wound repair in the future.


Subject(s)
Chitosan , Electric Conductivity , Hydrogels , Wound Healing , Hydrogels/chemistry , Wound Healing/drug effects , Chitosan/chemistry , Animals , Quercetin/chemistry , Quercetin/pharmacology , Melanins/chemistry , Silver/chemistry , Diabetic Foot/therapy , Diabetic Foot/drug therapy , Mice , Alginates/chemistry , Metal Nanoparticles/chemistry , Humans , Anti-Bacterial Agents/chemistry , Anti-Bacterial Agents/pharmacology , Iridoids
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