Dermal penetration and absorption of jet fuels in general, and JP-8 in particular, is not well understood, even though government and industry, worldwide, use over 4.5 billion gallons of JP-8 per year. Exposures to JP-8 can occur from vapor, liquid, or aerosol. Inhalation and dermal exposure are the most prevalent routes. JP-8 may cause irritation during repeated or prolonged exposures, but it is unknown whether systemic toxicity can occur from dermal penetration of fuels. The purpose of this investigation was to measure the penetration and absorption of JP-8 and its major constituents with rat skin, so that the potential for effects with human exposures can be assessed. We used static diffusion cells to measure both the flux of JP-8 and components across the skin and the kinetics of absorption into the skin. Total flux of the hydrocarbon components was 20.3 micrograms/cm(2)/h. Thirteen individual components of JP-8 penetrated into the receptor solution. The fluxes ranged from a high of 51.5 micrograms/cm(2)/h (an additive, diethylene glycol monomethyl ether) to a low of 0.334 micrograms/cm(2)/h (tridecane). Aromatic components penetrated most rapidly. Six components (all aliphatic) were identified in the skin. Concentrations absorbed into the skin at 3.5 h ranged from 0.055 micrograms per gram skin (tetradecane) to 0.266 micrograms per gram skin (undecane). These results suggest: (1) that JP-8 penetration will not cause systemic toxicity because of low fluxes of all the components; and (2) the absorption of aliphatic components into the skin may be a cause of skin irritation.
Aging in humans is associated with changes in gastrointestinal function. We wanted to determine whether a similar phenomenon occurs in rats and whether rats would be a suitable model to study changes in the gastrointestinal tract with age. Intestinal transit, response in vitro of circular colon strips to bethanechol and electrical stimulation, and colonic smooth muscle histology were compared for post-pubertal (5-12 mo) and senescent (25-28 mo) male Fischer 344 rats. Colonic transit of 51Cr was decreased 45% in senescent rats in comparison with younger rats. The maximum response of circularly oriented muscle strips from senescent rats to electrical stimulation of nerves was 32% less than the maximum response of strips from postpubertal rats. Likewise, the maximum response of the muscle strips to bethanechol was 16% less in the senescent group compared with the postpubertal group. There was no difference between the two groups in the EC50 of bethanechol. The thickness of the muscle layers and the percent circular muscle of strips fixed at optimum length were the same in both age groups. The senescent rat appears to be a useful model for the study of gastrointestinal changes with aging.
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