Impact of Aging Time on the Dermal Penetration of Phenol in Soil |
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| Authors: | Mohamed S. Abdel-Rahman Gloria A. Skowronski Rita M. Turkall |
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| Affiliation: | 1. Pharmacology and Physiology Department , New Jersey Medical School, University of Medicine and Dentistry of New Jersey , Newark, NJ, USA;2. Pharmacology and Physiology Department , New Jersey Medical School, University of Medicine and Dentistry of New Jersey , Newark, NJ, USA;3. Clinical Laboratory Sciences Department , School of Health Related Professions, University of Medicine and Dentistry of New Jersey , Newark, NJ, USA |
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| Abstract: | ![]()
Phenol is released to soil through accidental spills, manufacturing processes, and waste disposal. With time, chemicals can become more sequestered in soil (aging). Since skin is the body's primary route of entry for phenol, the impact of aging time on the dermal penetration of phenol was assessed in Atsion and Keyport soils. In vitro studies were conducted on dermatomed male pig skin using a flow-through diffusion cell methodology and radiolabeled phenol. After 3 and 6 months of aging in the Atsion soil, dermal penetration decreased from 84% of the initial dose for pure phenol (without soil) to 15% and 8%, respectively, while the dermal penetration of phenol aged in the Keyport soil was reduced to 22% and 17%, respectively. Atsion soil has a higher organic matter content (4.4%) than Keyport soil (1.6%) suggesting that the lower bioavailability of phenol aged in the Atsion soil may be due to the amount of organic matter in that soil. Although the data indicate that the potential health risk from dermal exposure to phenol would be lower after aging in soil than to pure chemical, further experiments are warranted at lower soil loads and with additional concentrations of phenol to quantify the risk. |
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| Keywords: | Monohydroxybenzene skin matrix sequestration |
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