Conductive adhesive self-healing nanocomposite hydrogel wound dressing for photothermal therapy of infected full-thickness skin wounds

TL;DR: Injectable photothermal PDA/Chitosan/β-Glycerophosphate thermosensitive hydrogels promote antibacterial and wound healing. The hydrogel exhibits excellent antibacterial ability, good biocompatibility, and high photothermal conversion performance. It can inhibit S. aureus and E. coli growth, decrease inflammation, and accelerate wound healing in mice.

TL;DR: The emergence of photothermal therapy provides an alternative to antibiotics in treating bacterial infections and shows the potential to improve the quality of life of patients and reduce the need for antibiotics.

TL;DR: The antibacterial electroactive injectable hydrogel dressing prolonged the lifespan of dressing relying on self-healing ability and significantly promoted the in vivo wound healing process attributed to its multifunctional properties, meaning that they are excellent candidates for full-thickness skin wound healing.

TL;DR: Bacterial biofilm prevalence in specimens from chronic wounds relative to acute wounds observed in this study provides evidence that biofilms may be abundant in chronic wounds.

TL;DR: In vivo experiments indicated that curcumin loaded hydrogels significantly accelerated wound healing rate with higher granulation tissue thickness and collagen disposition and upregulated vascular endothelial growth factor (VEGF) in a full-thickness skin defect model.

TL;DR: This article presents a comprehensive review of various types and properties of graphene family nanomaterials and highlights how these properties are being exploited for drug delivery and tissue engineering applications.