Bilayer dressing based on aerogel/electrospun mats with self-catalytic hydrogen sulfide generation and enhanced antioxidant ability

Hydrogen sulfide (H 2 S) releasing wound dressings have attracted much attention for their ability to promote cell proliferation, stimulate angiogenesis, and resist inflammation. Mimicking the skin structure, a bilayer wound dressing based on aerogel/mats with H 2 S release capability was designed a...

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Published in:Journal of materials chemistry. B, Materials for biology and medicine Materials for biology and medicine, 2023-02, Vol.11 (5), p.18-119
Main Authors: Han, Xiao, Wang, Lijuan, Shang, Yushuang, Liu, Xu, Kang, Inn-kyu, Shen, Jian, Yuan, Jiang
Format: Article
Language:English
Subjects:
Aerogels
Angiogenesis
Animals
Antioxidants
Antioxidants - pharmacology
Bandages
Cell growth
Cell migration
Cell proliferation
Controlled release
Exudates
Exudation
Gelatin
Glutathione
Hydrogels
Hydrogen Sulfide
Inflammation
Keratin
Macromolecules
Medical dressings
Polyurethane
Polyurethane resins
Pores
Rats
Reactive oxygen species
Scavenging
Sulfides
Sustained release
Vascularization
Wound Healing
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Summary:Hydrogen sulfide (H 2 S) releasing wound dressings have attracted much attention for their ability to promote cell proliferation, stimulate angiogenesis, and resist inflammation. Mimicking the skin structure, a bilayer wound dressing based on aerogel/mats with H 2 S release capability was designed and fabricated. A bio-macromolecular H 2 S donor based on a keratin-TA conjugate (KTC) was first synthesized through a thiol-disulfide exchange reaction. As an inner layer, KTC was then loaded into a gelatin hydrogel with large pores to absorb the wound exudates and generate H 2 S self-catalytically. Subsequently, polyurethane was electrospun with glutathione (GSH) to be used as an outer layer with small pores, which provided mechanical support, supplied GSH, and prevented bacterial invasion. The bilayer dressing was capable of generating H 2 S self-catalytically, achieving a controlled and sustained release. The dressing could also promote cell proliferation and migration. In addition, the dress possessed enhanced antioxidant ability and reactive oxygen species (ROS) scavenging capability. The bilayer dressing on promoting wound healing was investigated in a full-thickness excisional cutaneous wound model in rats. The results demonstrated that it could reduce inflammation, promote vascularization, and facilitate hair follicle regeneration, thereby accelerating wound healing. Overall, the bilayer dressing has great potential applications in the field of the wound dressing. A bilayer dressing based on aerogel/electrospun mats with self-catalytic hydrogen sulfide generation and enhanced antioxidant ability was fabricated. The dressing could reduce inflammation and accelerate wound healing.
ISSN:2050-750X
2050-7518
DOI:10.1039/d2tb02090d