Effect of vehicles on topical delivery of 5-fluorouracil (5FU) by 1-acyl-5FU prodrugs

Effect of vehicles on the transdermal delivery of melatonin across porcine skin in vitro

Melatonin is a good candidate for transdermal drug delivery considering its variable oral absorption, a short biological half-life and extensive first pass metabolism. The purpose of this study was to investigate the effect of various vehicles on the in vitro permeation of melatonin across porcine skin. The skin permeation studies were carried out with vertical diffusion cells using dermatomed porcine skin. The flux of melatonin from isopropyl myristate, Lauroglycol FCC and ethanol were respectively 1.5, 1.4 and 1.3 times higher than that observed with water (P<0.001). However, flux values of melatonin with Labrasol, propylene glycol and mineral oil were significantly lower than that of water (P<0.001). There was no significant difference between the flux of melatonin from the following vehicles: Transcutol, Phosol 50 PG, ethyl oleate, PEG 400 and water (F=0.2082, P>0.05). In general, vehicles with high melatonin solubility showed low permeability coefficient values. The flux had no correlation to the solubility data, suggesting that high solubility values do not translate to high drug permeation. The present study suggests that isopropyl myristate, Lauroglycol FCC and ethanol may be used as potential vehicles in the transdermal delivery of melatonin.

Topical delivery of 5-fluorouracil (5-FU) by 1,3-bisalkylcarbonyl-5-FU prodrugs

The solubilities in isopropyl myristate (S(IPM)) and pH 4.0 buffer (S(AQ)) and the partition coefficients between IPM and pH 4.0 buffer (K(IPM:AQ)) have been measured for a series of 1,3-bisalkylcarbonyl-5-fluorouracil prodrugs (1,3-AC-5-FU). The 1,3-AC-5-FU prodrugs were each over 500 times more soluble in IPM, but all members of the series, whose solubilities could be estimated, were much less soluble in pH 4.0 buffer than 5-FU. The abilities of the 1,3-AC-5-FU prodrugs to deliver total 5-FU species through hairless mouse skin from IPM suspensions (J(i)) were also measured. The 1,3-diacetyl derivative 2, which exhibited the highest S(AQ) in the series, gave the highest J(i) value. Although the series of 1,3-AC-5-FU prodrugs was generally effective at increasing J(i) (three to ten times), the best 1,3-AC-5-FU prodrug was not as effective as the best 1- or 3-alkylcarbonyl-5-FU prodrug (1- or 3-AC-5-FU) at increasing J(i) and their ability to increase the concentration of total 5-FU species in the skin was generally less than that of the 1-AC-5-FU prodrugs, but greater than that of the 3-AC-5-FU prodrugs. Thus, the 1-AC-5-FU prodrugs remain the best prodrugs with which to enhance the topical delivery of 5-FU.

1-Alkylcarbonyloxymethyl prodrugs of 5-fluorouracil (5-FU): synthesis, physicochemical properties, and topical delivery of 5-FU

1-Alkylcarbonyloxymethyl (1-ACOM) prodrugs of 5-fluorouracil (5-FU) have been synthesized and characterized by their solubilities in isopropyl myristate (SIPM) and pH 4.0 buffer (SH2O), by their partition coefficients between isopropyl myristate (IPM) and pH 4.0 buffer (K) and by their abilities to deliver total 5-FU species into (Cs) and through (Ji) hairless mouse skin from an IPM vehicle. All of the prodrugs were much more lipophilic (SIPM) than 5-FU (> 60 times), and two members of the series (alkyl = C1 and C2, acetyl- and propionyloxymethyl) were also more soluble in water than 5-FU. The two more water-soluble members gave larger Ji values than the other members of the series, with C2 exhibiting the best biphasic solubility and the largest Ji value (16 times that of 5-FU). The ability of the 1-ACOM-5-FU prodrugs to deliver total 5-FU species into skin (Cs) was greater than the delivery of 5-FU by 5-FU, except for the last two members of series (alkyl = C7 and C9, octanoyl- and decanoyl-oxymethyl). However, the ratios of normalized Cs to Ji for the series was less than that exhibited by 5-FU, except for C7 and C9. Also, except for C9, significant amounts of intact prodrug as percentages of total 5-FU species were found in the receptor phases during the course of the diffusion cell experiments, ranging from 55% for C1 to 12% for C7.