Effect of propylene glycol, Azone and n-decylmethyl sulphoxide on skin permeation kinetics of 5-fluorouracil

The effect of propylene glycol (PG), azone (LDA) and n-decylmethyl sulfoxide (LDB) on the permeation course of fluorouracil through the hairless mouse skin was studied. Steady-state fluxes and permeability coefficients were measured in buffer solutions and in systems containing the enhancing agents. The permeation rates of fluorouracil have been shown to be highly pH dependent in the pH range of 5-9, the rate decreases with an increase in pH. The solubility of fluorouracil in pure propylene glycol at equilibrium measured by the solubility method was found to be 2.2 mg · ml^-1 at 25°C which is a relatively low value as compared to the solubility in water. The effect of various concentrations of propylene glycol in aqueous donor solutions on the drug permeation rate was examined at pH's 5.7 and 9.0. It was found that propylene glycol decreases the permeation flux when increasing concentrations are added to the aqueous pH 5.7 system; however, at pH 9, a strong enhancement effect was shown. PG was also found to decrease the drug reservoir in the hairless mouse skin e.g. 8.4 and 2.8 mg · (mg skin)^-1 for buffer pH 9 and PG/aqueous solution pH 9 systems, respectively. The concentration dependent enhancement effects of azone and n-decylmethyl sulfoxide have been measured. Both have been found to be potent enhancing agents. However, at relatively low concentrations such as 5%, Azone induced a 50-fold and n-decylmethyl sulfoxide only a two-fold enhancement of the drug steady-state flux. At high concentrations as much as 40%, n-decylmethyl sulfoxide appears to be more effective than Azone. The fluxes measured with these systems were 0.21, 0.17 and 0.003 mg · cm^-2 · h^-1 for the n-decylmethyl sulphoxide, Azone and PG/H₂O systems, respectively.