, 2012) These authors also stated that significantly more resear

, 2012). These authors also stated that significantly more research is needed before comprehensive exposure scenarios and associated exposure estimates for nanomaterials can be developed. A major hurdle is clearly that analytical methods are missing so far that could specifically and quantitatively EPZ-6438 solubility dmso identify and characterize the released CNTs under real-world conditions (von der Kammer et al., 2012). However, recent developments of novel analytical methods for CNTs may enable such measurements (Plata et al., 2012) and allow researchers to quantify the release of CNT from actual products. Experts were convened and concepts

developed for this paper by the NanoRelease Consumer Products Steering Committee (http://www.ilsi.org/ResearchFoundation/Pages/NanoRelease1.aspx). NanoRelease is funded by the US Environmental Protection Agency, the American Chemistry Council Nanotechnology Panel, the Environment Canada, the Health Canada, the American Cleaning Institute, the Society of Organic Chemical Manufacturers and Affiliates, the Adhesives and Sealant Council, and the ILSI Research Foundation. More than 60 experts listed on the NanoRelease CP web site from government, academia, industry,

and civil society organizations have also contributed time and expertise in support of the project. We thank especially the following contributors to the White Paper that were not involved

in writing aminophylline this review: CDK inhibitor Treye Thomas, Laurence Libelo, Megan Sandy, Matt Dahm, Jackie Isaacs, Mary Beth Miller, and Matthias Voetz. This article has been reviewed in accordance with the U.S. Environmental Protection Agency’s (U.S. EPA) peer and administrative review policies and approved for publication. Mention of trade names or commercial products does not constitute an endorsement or recommendation for use by the U.S. EPA. “
“Urban air pollution in Asian countries contributes two thirds of the global burden of disease due to poor air quality (Krzyzanowski and Cohen, 2008) and evidence based interventions and regulation are urgently needed to support public health protection. In 2005 the World Health Organization (WHO) updated the 2000 version (WHO, 2000b) of Air Quality Guidelines (AQG) for particulate matter (PM), nitrogen dioxide (NO2), sulfur dioxide (SO2) and ozone (O3) (WHO, 2006a). The WHO AQG are based on a comprehensive review of the evidence on the relationships between air quality and adverse health effects including cardiopulmonary diseases (Dockery et al., 1993 and Pope et al., 2004), cerebrovascular diseases (Dominici et al., 2006 and Wordley et al., 1997), cancers (Laden et al., 2006 and Pope et al., 2002), diabetes (Brook et al., 2008 and Ostro et al., 2006), and adverse birth outcomes (Bobak, 2000 and Woodruff et al., 1997).

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