Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society
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Significant damage to tissue surrounding burn injuries occurs after the removal of the thermal source. This damage is caused by a combination of both necrotic and apoptotic cell death in the zone of stasis. Preserving the zone of stasis can reduce the wound size and thereby improve wound healing. ⋯ We finally tested the peptide in vivo, using a mouse model of burn injury. Wounds that were treated with the peptide reepithelialized faster than controls, while cell death surrounding the wound site was markedly reduced 24 hours postinjury, suggesting that the prevention of apoptosis as well as the proliferative effects of this peptide contribute to the wound healing process. Our data implicate c-Jun in multiple processes during wound repair and demonstrate that treatment of burn injuries using inhibitors of c-Jun dimerization at the time of injury can promote wound healing.
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A biofilm is a collection of microbial cells that are attached to a surface and embedded in a self-produced extrapolymeric substance. The understanding of the biofilm phenotype is important in the understanding of bacteria in vitro but it has been difficult to translate biofilm science to the clinical setting. More recently, preliminary criteria for defining biofilm associated diseases have been proposed and the purpose of this study was to create a biofilm-associated wound model based on these criteria. ⋯ Our results demonstrated that S. aureus form firmly attached microcolonies and colonies of bacteria encased in an extracellular matrix on the surface of the wounds. These biofilm-like communities also demonstrated increased antimicrobial resistance when compared with their planktonic phenotype in vivo. The structural and physiological results support the hypothesis that bacterial biofilms play a role in wound colonization and infection.