Percutaneous absorption of polycyclic aromatic compounds from bitumen fume condensate: Fid-Bau Portal

Percutaneous absorption of polycyclic aromatic compounds from bitumen fume condensate

Roy, Timothy A. / Kriech, Anthony J. / Mackerer, Carl R.

Bitumenfume condensate was obtained from the headspace vapors of a bitumen storage tank containing a lightly oxidized paving-bitumen for the purpose of developing an in vitro procedure to estimate the percutaneous absorption, through human skin, of the very low levels of polycyclic aromatic compounds found in the condensate. The Fraunhofer Institute of Toxicology and Medicine provided the fume condensate and analyses of the individual polycyclics present. Heritage Research Group provided analyses of total 3-6 ring polycyclics. Sections of human back skin were sliced with a dermatome to a thickness of about 250 micron, and 1-inch circular pieces were mounted in 6 Franz diffusion cells. Tissue integrity was assured by electrical resistance measurement. Neat condensate was applied to the stratum corneum at 'infinite dose' (200 microL) while the dermis was in direct contact with a receptor fluid consisting of an aqueous solution of polyoxyethylene 20 oleyl ether. Receptor fluids were sampled at 12 intervals over 48 hours, and analyzed by an HPLC system equipped with a variable wavelength detector and a fluorescence detector connected in series. The UV detector was generally operated at 254 nm, and the fluorescence detector at ex 360 nm/em 400 nm, 18 nm bandpass. The mobile phase was a 60-100 % acetonitrile/water gradient. Penetration rates of anthracene, fluoranthene-pyrene, and total 3-6 ring polycyclic aromatic compounds (PAC) were measured. The neat condensate was 32.7 microg/g anthracene, 7.4 microg/g fluoranthene, 7.3 microg/g pyrene, and 1.8 mg/g total 3-6 ring PAC. The rates of dermal penetration (ng/cm²/hr SD) were: anthracene 6.5 0.9; fluoranthene-pyrene 1.8 0.3; and 3-6 ring PAC 120 30. Percentages of applied dose absorbed were: anthracene 5.3%, fluoranthene-pyrene 3.3%, and 3-6 ring PAC 1.8%. The apparent permeability coefficient Kp (Kp = flux rate/applied concentration) for anthracene was 2 x 10⁴cm/hr. These results demonstrate that penetration of PAC, at the low concentrations found in bitumen fume condensates, can be measured by an appropriately designed in vitro method. Rates of PAC percutaneous absorption will be further evaluated in the future with other fume condensates obtained from several different straight run paving asphalts.