Abstract
The transdermal route of drug delivery has gained great interest of pharmaceutical research, as it circumvents number of problems associated with oral route of drug administration. In this study a transfersomal gel was fabricated using liposome-based nano carrier transfersome. Transfersomes as ultra-sfigurabile liposomes are prepared by rotary evaporation method with the composition of soyalecithin as lipid and propylene glycol as surfactant. Sumatriptan was selected as model drug for the treatment of migraine. Migraine is a chronic disease and the first line agents useful in treatment include NSAID’S and triptans .In recent years, most of the triptans have been designed to deliver the drug in the form of transdermal application to avoid gastrointestinal irritation, to overcome first pass effect and to maximize the drug concentration at the site of action. The present study describes the effect of sonication on size of transfersomes for future fabrication of transfersome into Lipo-drug-In-Adhesive Patch. Transfersomes were evaluated for vesicle size; polydispersity index, zeta potential, SEM, entrapment efficiency and transfersomal gel were evaluated for In Vitro Diffusion Studies. Optimized formulation of transfersomes are further are further fabricated into patch system. The prepared formulations were evaluated for various parameters like thickness, tensile strength, folding endurance, % elongation, % moisture content, % moisture uptake, % drug content, in vitro drug release, in vitro permeation, kinetic modeling, adhesion properties and stability studies. Formulation T1 showed desirable permeation of about 99.15 at the end of 12 hours with transdermal flux of 9.288 (μg/cm2/h) and permeability coefficient 1.54 (cm/h) Patch system might follow zero-order kinetics as it was evident by correlation coefficients R2 (0.924), better fit than first order R2 (0.783) and Higuchi model R2 (0.991).
