Effects of Topical Antimicrobial Formulations on Pseudomonas aeruginosa Biofilm in an In vivo Porcine Burn Wound Model

Abstract

AbstractSilver has been incorporated into a variety of wound dressings and topical agents to prevent and combat wound infections. Pseudomonas aeruginosa is a common cause of burn wound infections and well-known biofilm producer. The objective of this study was to evaluate the effects of a panel of wound dressings containing different silver formulations on P. aeruginosa biofilms using an in vivo porcine burn wound model. Second-degree burns were created on the skin of specific pathogen-free pigs (n = 3) and inoculated with 2.14 × 105 cfu P. aeruginosa per wound. Biofilms were allowed to develop for 24 h, and then each wound was treated with one of 6 treatments: silver oxynitrate dressing (OXY), silver oxynitrate powder (POWD), nanocrystalline silver dressing (NANO), silver chloride dressing (AGCL), silver sulfadiazine (SSD), or a negative control polyurethane film with no silver-based formulation (NEG). Wounds were cultured at D3 post-infection (n = 3 per pig per treatment) and at D6 post-infection (n = 3 per pig per treatment) for quantification of bacteria. On D6, biopsies (n = 3 per treatment) were taken from POWD, SSD, and NEG wounds and wound healing progress was evaluated histologically. At the time of treatment initiation, 24 h post-infection, 8.71 log cfu P. aeruginosa were present in burn wounds. On D3 and D6, all treatments significantly reduced bacterial counts in wounds as compared to NEG, but POWD caused an approximately 7-log reduction in bacterial counts on both days and was the only treatment to reduce the bacterial counts to below the threshold for detecting bacteria. The OXY, NANO, and SSD treatments had similar reductions in bacterial recovery on D3 and D6 of approximately 2.5-4 log. The histological healing metrics of reepithelialization percentage, epithelial thickness, white cell infiltration, angiogenesis, and granulation tissue formation were similar among wounds from POWD, SSD, and NEG groups at 6 days post-infection. Silver oxynitrate powder reduced P. aeruginosa growth in burn wounds more effectively than other silver-based dressings but did not impact wound healing.