Copper plays a key role in angiogenesis and in the synthesis and stabilization of extracellular matrix skin proteins, which are critical processes of skin formation. We hypothesized that introducing copper into wound dressings would enhance wound repair. Application of wound dressings containing copper oxide to wounds inflicted in genetically engineered diabetic mice (C57BL/KsOlaHsd-Lepr(db)) resulted in increased gene and in situ up-regulation of proangiogenic factors (e.g., placental growth factor, hypoxia-inducible factor-1 alpha, and vascular endothelial growth factor), increased blood vessel formation (p<0.05), and enhanced wound closure (p<0.01) as compared with control dressings (without copper) or commercial wound dressings containing silver. This study proves the capacity of copper oxide-containing wound dressings to enhance wound healing and sheds light onto the molecular mechanisms by which copper oxide-impregnated dressings stimulate wound healing.
Impregnation or coating of cotton and polyester fibers with cationic copper endows them with potent broad-spectrum antibacterial, antiviral, antifungal, and antimite properties (Borkow, G. and Gabbay, J. (2004). Putting Copper into Action: Copper-impregnated Products with Potent Biocidal Activities, FASEB Jounal, 18(14): 1728-1730). This durable platform technology enables the mass production of woven and non-woven fabrics, such as sheets, pillow covers, gowns, socks, air filters, mattress covers, carpets, etc. without the need of altering any industrial procedures or machinery, but only the introduction of copper oxide-treated fibers. The biocidal properties of fabrics containing 3-10% copper-impregnated fibers are permanent, are not affected by extreme washing conditions, and do not interfere with the manipulation of the final products (e.g., color, press, etc.). In this article, the authors describe data showing that (i) antifungal socks containing 10% w/w (weight/weight) copper-impregnated fibers alleviate athlete’s foot; (ii) antimicrobial fabrics (sheets) containing 10% (w/w) copper-impregnated fibers decrease bacterial colonization in a clinical setting; and (iii) these products do not have skin-sensitizing properties or any other adverse effects. Taken together, these results demonstrate the wide preventive and curative potential of copper oxide-impregnated apparel products.
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