They must consider the route and extent of exposure, since the skin is the main site of application learn more of cosmetics, as a result, major focus has been placed on dermal absorption for which accepted in vitro methods are available. Other dermal models include human reconstructed skin models for use in genotoxicity testing ( Munn et al., 2009). For other endpoints such as skin and eye irritation, scientifically
accepted methods used in combination are being used as alternatives to animal models. In contrast to other sectors, the cosmetics industry is required by law to replace a number of in vivo animal tests with scientifically valid alternative approaches. In an optimal situation, ADME/TK are cross-cutting issues that are taken into account in all these
processes, albeit not literally or specifically required in various sector legislations. To this end, PS-341 mw scientifically justifiable – but not legally required – information may come from in vivo as well as in vitro assays which can be used by one or more sectors to determine ADME properties as well as understanding mechanisms of action. Examples of information gained from in vitro models are described below and listed in Table 1. A major challenge is that in vitro methods are needed that allow for a quantitative assessment of effects in vivo. Safety assessors from all industry sectors will need to evaluate the exposure of a chemical to human health, whether it is intestinal absorption from an orally dosed drug, systemic exposure from a dermally applied cosmetic or accidental exposure from a pesticide. Whereas the pharmaceutical industry is aiming to have good systemic exposure (high bioavailability), the chemical, pesticide and cosmetics sectors are likely to develop chemicals which are poorly absorbed. A number of cell lines, such as Caco-2, are routinely used to determine
intestinal absorption. When used as part of a simulation model that takes into account solubility and dissolution Calpain in the gastrointestinal tract as well, they give a good prediction as to the extent of absorption (Thomas et al., 2008). Likewise, cell lines have been employed to predict penetration across the blood brain barrier, although these models still require some further development. The most relevant route of exposure for cosmetics, industrial chemicals and pesticides is the skin (although exposure via inhalation and the oral route can be very relevant as well), for which static or flow-through diffusions cell models have been standardized (as least in part) for use with human, pig and rat skin in OECD and EU context (OECD TG 428, (SANCO, 2004)). Moreover, there is on-going revision of the current guidance document on dermal absorption (SANCO, 2004).