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Abstract
Iontophoresis is useful for the transdermal delivery of charged drugs. However, nonionized drugs either have a low flux (due to electro-osmosis) or cannot be delivered using this technique. Because ionized or nonionized drugs can be encapsulated in charged liposomes, it was hypothesized that charged liposomes can deliver neutral or nonionized drug efficiently by iontophoresis. Colchicine, a neutral drug, was encapsulated in large unilamellar vesicles (LUVs), prepared with 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC), 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC), and 1,2-distearoyl-sn-glycero-3-phosphocholine (DSPC) along with cholesterol (1:0.5 mole ratio). Multilamellar vesicles (MLVs) were prepared by the thin-film hydration method and LUVs were obtained by extruding MLVs through polycarbonate filters of 200 nm pore size. Positive charge was induced in the liposomes by adding stearylamine and negative charge by adding dicetyl phosphate. Nonencapsulated drug was separated from LUVs by the Ficoll density gradient method. Positively charged LUVs were delivered under the anode, negatively charged LUVs under the cathode, and neutral LUVs without current using Franz cells and human cadaver skin. Plain colchicine as well as colchicine encapsulated in positively charged LUVs was delivered better under the anode compared with the cathode and passive conditions. Delivery of colchicine encapsulated in positively charged DSPC liposomes was four to five times greater than that of plain colchicine and two to three times greater than that of colchicine encapsulated in DMPC or DPPC liposomes. Because LUVs prepared with DMPC and DPPC were fluid at 37°C, the encapsulated drug leaked during iontophoresis and therefore the delivery was less. Delivery of colchicine was lower under the cathode due to the change in pH during iontophoresis, which, as observed in high-performance liquid chromatographic analysis, caused degradation of the drug. Thus, it can be concluded that iontophoresis of colchicine encapsulated in positively charged DSPC liposomes can improve its delivery across human cadaver skin