Promotion of the Wound Healing of in vivo Rabbit Wound Infected With Methicillin-Resistant Staphylococcus aureus Treated by a Cold Atmospheric Plasma Jet

Surgical incision infection of multidrug-resistant microorganisms (e.g., methicillin-resistant Staphylococcus aureus, MRSA) is a severe cause of poor wound healing, which is prevalent in healthcare facilities and constitutes a huge infectious disease burden in the world. The purpose of this study is to investigate the medical application and possible mechanisms of the cold atmospheric plasma jet on infected wounds. In this article, the New Zealand rabbit in vivo wound infected with MRSA is used as the wound healing animal model. The helium atmospheric-pressure dielectric-barrier-discharge (AP-DBD) plasma jet is employed to treat the wounds infected with MRSA. The wound healing, histological, and cytokine analyses are conducted to evaluate the efficacy of the helium AP-DBD plasma jet on the MRSA-infected wound healing process. The experimental results show that the helium AP-DBD plasma jet treatment on the wounds infected with MRSA can regulate the secretion of the cytokines, limit the inflammatory response and cell excessive proliferation, accelerate the process of reepithelialization, and consequently, promote the wound healing process and the inactivation of the bacteria.

Automated summary

The study investigated the medical application and possible mechanisms of cold atmospheric plasma jet on infected wounds, specifically with MRSA. The experimental results demonstrated that the treatment with helium AP-DBD plasma jet can regulate cytokines secretion, limit inflammatory response, accelerate reepithelialization, and promote wound healing process and bacterial inactivation.