COMPARATIVE INVITRO PERCUTANEOUS-ABSORPTION OF P-SUBSTITUTED PHENOLS THROUGH RAT SKIN USING STATIC AND FLOW-THROUGH DIFFUSION-SYSTEMS

Citation
Mf. Hughes et al., COMPARATIVE INVITRO PERCUTANEOUS-ABSORPTION OF P-SUBSTITUTED PHENOLS THROUGH RAT SKIN USING STATIC AND FLOW-THROUGH DIFFUSION-SYSTEMS, Toxicology in vitro, 7(3), 1993, pp. 221-227
Citations number
17
Categorie Soggetti
Toxicology
Journal title
ISSN journal
08872333
Volume
7
Issue
3
Year of publication
1993
Pages
221 - 227
Database
ISI
SICI code
0887-2333(1993)7:3<221:CIPOPP>2.0.ZU;2-E
Abstract
The objective of this study was to compare the in vitro percutaneous a bsorption of phenol and eight p-substituted phenolic derivatives using the static and flow-through diffusion systems. The variability of the cumulative percentage absorption data was also examined. Clipped dors al skin was removed from female Fischer 344 rats (90 days old), cut on a dermatome to approximately 350 mum thick, placed in a diffusion cel l and treated with chemical (4 mug/cm2, ethanol). The 72-hr cumulative absorption into the receptor fluid for the phenols in both systems ra nged from 15.4 to 97.6% of the dose. Absorption was greater than 70% i n both systems for phenols with a log octanol:water partition coeffici ent (log P) value between 1.4 and 3.5. The percentage of the dose rema ining in the skin and washed from the skin and cell top at 72 hr in bo th systems ranged from 1.8 to 56.2% and from 0.7 to 45.2%, respectivel y. There were significant differences in absorption between the two sy stems with five of the phenols. Absorption was significantly lower for acetamido-, chloro- and cyanophenol in the static system and phenol a nd heptyloxyphenol in the flow-through system. However, the difference s in absorption for phenol and chlorophenol were small (<4%) and may n ot be that biologically relevant. Phenols absorbed the least (<70%), w ere also on the extremes of the log P range examined and had the most variable absorption data. Both systems appear to be equivalent means t o investigate in vitro percutaneous absorption of chemicals, but it is critical to recognize that the data can vary, especially for chemical s not absorbed well.