Nanosilver in Consumer Products and Human Health - ACS Publications

Aug 5, 2011 - The title of the article seduces readers to the impression that we can look back at more than a century of safe use of nanosilver. In th...
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Nanosilver in Consumer Products and Human Health: More Information Required! ABSTRACT: Commenting on “120 Years of Nanosilver History: Implications for Policy Makers” (Environ. Sci. Technol. 2011, 45, 1177 1183). The title of the article seduces readers to the impression that we can look back at more than a century of safe use of nanosilver. In this context, colloidal silver and nanosilver have been sometimes used as synonyms. Historically, the term “colloidal silver” refers to dispersed silver particles encompassing a size range of 10 1000 nm. Following scientific definitions, “colloid” stands for freely dispersed particles in a fluid (heterogenic) phase irrespective of its size distribution, while the term “nanosilver” is used for categorization by size. Of course, just the labeling as such neither necessarily implies new hazard properties nor any specific risks; however, uncertainties and data gaps at many levels call for careful consideration and usually should take effect as alert signal for regulatory toxicologists all over the world. Within the frame of this short commentary, we would like to focus on some unclarified issues related to consumer products.

’ IS THE TOXIC POTENTIAL OF NANOSILVER IDENTICAL TO “CLASSICAL” SILVER? Due to several modes of cytotoxicity, silver is used as biocidal agent. However, as yet unresolved remains the question of whether or not the toxic potential of nanosilver may differ somehow from silver bulk particles. An exhaustively detailed look into the literature does not provide a clear answer on this. One reason is that well accepted strategies based on validated methods that would be routinely applicable for addressing the nanospecific requirements of toxicological characterization are just in turn to grow. Many early toxicity studies are only of limited value for regulatory purposes, mainly because they lack sufficient physicochemical characterization data and reference materials for comparison purposes (positive/negative controls). So, detailed knowledge on the nanomaterial applied is most relevant to ensure correct dosing and subsequent measurement of nanospecific effects. For example, it is well-known that nanoparticles tend to aggregate and to precipitate depending on, for example, the test environment (medium), the concentration, and the coating of the particles.1 Thus, requiring high quality experimental standards in the regulatory decision process should not be mixed up with ignoring accumulated knowledge of the scientific and regulatory heritage. The few in vitro and animal studies available indicate that nanosilver (particularly sizes