![]() Kumar Pandian SR, Deepak V, Kalishwaralal K, et al. Silver nanoparticles: a new view on mechanistic aspects on antimicrobial activity. Treatment of large human burns with 0.5% silver nitrate solution. An overview of the use of bromelain-based enzymatic debridement (Nexobrid®) in deep partial and full thickness burns: appraising the evidence. Properties and therapeutic application of bromelain: a review. Wound healing in partial-thickness burn wounds treated with collagenase ointment versus silver sulfadiazine cream. Hansbrough J, Achauer B, Dawson J, et al. Enzymatic debriding agents are safe in wounds with high bacterial bioburdens. Collagenase for enzymatic debridement: a systematic review. An inexpensive bismuth – petrolatum dressing for treatment of burns. 2015 6:93–100.Ĭhattopadhyay A, Chang K, Nguyen K, Galvez MG, Legrand A, Davis C, et al. coli 0157:H7, norovirus, and other common enteric pathogens. Antimicrobial activity of bismuth subsalicylate on Clostridium difficile, and E. Pitz AM, Park GW, Lee D, Boissy YL, Vinjé J. Topical antimicrobials for burn infections – an update. Efficacy of 1% acetic acid in the treatment of chronic wounds infected with Pseudomonas aeruginosa: prospective randomized controlled clinical trial. Vinegar: medicinal uses and antiglycemic effect. Broad-spectrum microbicidal activity, toxicologic assessment, and materials the side compatibility of a new generation of accelerated hydrogen peroxide-based environmental surface disinfectant. Mechanisms of delayed wound healing by commonly used antiseptics. Complications of povidone – iodine absorption in topically treated burn patients. A critical evaluation of povidone – iodine absorption in thermally injured patients. Evaluation of topical povidone-iodine ointment in experimental burn wound sepsis. Scientific exhibit, 4 th International Congress of Burn Injuries, Buenos Aires, Argentina, 1974 15-21. 1973 52:640–4.īlanco, C: 1079 hospitalized burn patients treated topically with betadine ointment. Open and closed treatment of burns with povidone-iodine. The Carrel-Dakin method of treating septic wounds its application to civil surgery. 2003 111:744–50.Ĭambiaso-Daniel J, Boukovalas S, Bitz GH, Branski LK, Herndon DN, Culnan DM. Effects of burn wound excision on bacterial colonization and invasion. New York: Wiley p924 2000.īarret JP, Herndon DN. Papers of particular interest, published recently, have been highlighted as: While recent literature supports using long-acting silver-based dressings over short-acting topicals, more research, particularly randomized controlled trials, is needed to provide evidence-based recommendations regarding their use. Tradition and surgeon preference are major influences on frequency of use. Longer acting applied dressings include silver-bonded nylon and fiber (Silverlon ® Argentum, Clarendon Hills, IL) multilayer rayon, polyester silver-coated mesh polyethylene (Acticoat™ Smith & Nephew London, UK) silver sodium carboxymethylcellulose (Aquacel ® Ag, ConvaTec, Greensboro, NC) silver-containing soft silicone foam (Mepilex ® Ag Mölnlycke Health Care, Gothenburg) soft silicone silver (Mepitel Ag ® Mölnlycke Health Care, Gothenburg). ![]() Short-acting topicals can be divided into 3 generalized classes: antiseptics, antimicrobials, and enzymatic debridement agents. There are many topical agents on the market for use on burn wounds. Longer acting topical dressings result in less frequent dressing changes, less pain, and greater ease of use, but have similar results in wound healing and infection prevention. Recent literature supports the use of long-acting silver dressings over traditional daily use topical treatments. The purpose of this review is to discuss commonly used dressings for burn treatments, including short-acting topicals and long-acting silver dressings.
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