Effect of fatty acid Esters on permeation of ketoprofen through hairless rat skin

Abstract

Twelve medium to long chain fatty acid Esters (Esters), the total number of carbon atoms of which ranged from 17 to 34, were used to study the effect of the vehicle on the permeation of ketoprofen, and the effect was compared with the case of indomethacin. The solubility of ketoprofen was higher in Esters with a smaller number of carbon atoms. The permeation rate of ketoprofen from the Ester suspension through excised hairless rat skin was proportional to its solubility in the suspension, which was the same in the case of indomethacin. The diffusion constant and partition coefficient were calculated using the computer program MULTI(FILT). The diffusion constant decreased with increasing number of carbon atoms, and the partition coefficient was increased with increasing number of carbon atoms, in both cases of ketoprofen and indomethacin. Esters also penetrated the skin with the concentration of about 10 mg/g, independent of the number of carbon atoms. The Esters in the skin increase the diffusion rate of the drugs, especially in the case of Esters with a small number of carbon atoms. Also the drug solubility in the skin was improved, although the effect was similar for the range of Esters investigated in the present study. Then the permeation rate of ketoprofen and indomethacin increased.