Current commercially available silver-based wound dressings such as silver-nylon have been used as antimicrobial barriers for burn and trauma care in combat conditions for over 10 years. However, these dressings do not stabilize the eschar or reduce its toxicity. Cerium nitrate (CN) solutions have been established clinically to stabilize the eschar by decreasing release of inflammatory mediators from burned tissue thereby allowing delayed excision and grafting. In this report, we tested the extent to which CN imparts CN benefits to silver dressings for temporizing treatments of burn wounds and enhancing anti-bacterial activity. Using a rat full-thickness scald burn model, we showed that CN enhanced the anti-bacterial effects of the tested silver-based dressings (Acticoat™, Mepilex™, and Silverlon®), while also imparting anti-inflammatory properties to these dressings. Compared to the use of silver dressings alone, CN significantly decreased the levels of IL-1β and GRO/KC, and exhibited downward trending levels of IL-1α, MIP-1α, and bacterial bioburden within the wound. Based on our findings, we conclude that CN has the ability to expand and enhance the function of several silver dressings. We propose the use of CN in combination with silver dressings to stabilize burn wounds thereby allowing postponement of excision and grafting, most notably in scenarios where the standard of care is not feasible such as in combat situations, resource limited regions, and new emergent health care challenges as seen during the COVID-19 pandemic in which COVID-positive severe burn patients are not able to undergo surgery during an active outbreak.
Keywords: Cerium nitrate; anti-inflammatory; antibacterial; burn; eschar; silver dressings.
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