AI Article Synopsis
- Bacterial infections from wounds are common, and the misuse of antibiotics is making them more dangerous to health, highlighting the need for non-antibiotic options.
- A new biodegradable hydrogel has been developed that responds to its environment, combining an antibacterial hydrogel with a hybrid film that can convert light into heat, enhancing its effectiveness.
- Tests show this hydrogel adheres well to surfaces, easily detaches without residue when mixed with glycerine and water, and demonstrates strong antibacterial and wound healing properties in live mice, suggesting promising clinical applications for this innovative dressing.
Article Abstract
Bacterial induced wound infection is very common in real life, but the abuse of antibiotics means that is poses a potential threat to human health. The development of non-antibiotic type antibacterial materials appears to be of importance. Herein, a microenvironment-responsive and biodegradable hydrogel complex, consisting of an acid-degradable antibacterial hydrogel and a hydrogen peroxide (HO)-responsive polymer/gold hybrid film with photothermal conversion ability was constructed based on polyethylenimine (PEI), polyethylene glycol (PEG), hexachlorocyclic triphosphonitrile (HCCP), and gold nanoparticles. The resultant hydrogel showed excellent adhesion to various surfaces, whether in air or underwater. However, a simple glycerine and water (v/v = 1/1) mixed solution could rapidly promote the detachment of the hydrogel from skin automatically, without any external force and no residue was left, exhibiting a manmade controllable flexible feature. Moreover, the antibacterial performance against methicillin-resistant (MRSA) and (), as well as wound healing investigations conducted in living mice confirmed that these hydrogels possessed excellent antibacterial, antioxidative, and wound healing abilities. We believe this proof of concept could create a novel pathway for the design and construction of highly efficient hydrogel dressings using readily available polymeric materials and that the resulting dressing have potential for clinical applications.
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| http://dx.doi.org/10.1039/d1bm02010b | DOI Listing |
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