Abstract

An ethylene-vinyl acetate (EVA) matrix containing glimepiride was prepared as a potential transdermal drug delivery system. Permeation studies of quinupramine through the EVA copolymer membrane were carried out using a two-chamber diffusion cell. The rate of drug permeation through the EVA membrane was proportional to the PEG 400 volume fraction. The release of glimepiride from the EVA matrix was examined using a modified Franz diffusion cell. A plasticizer was added to prepare the pore structure of the EVA matrix in order to increase the rate of drug release. The effects of PEG 400, drug concentration, temperature, and plasticizer on the drug release rate were investigated. Various types of enhancers were added to an EVA matrix containing 2% glimepiride in an attempt to increase the level of skin permeation of quinupramine through an EVA matrix. The effects of the enhancers on the level of glimepiride permeation through the skin were evaluated using Franz diffusion cells fitted with intact excised rat skin. The rate of drug release from the EVA matrix increased with increasing PEG 400 volume fraction, temperature, and drug loading. The estimated activation energy of drug release was 7.274 kcal/mol for 2% drug loading dose. The release of glimepiride from the EVA matrix followed a diffusion-controlled model, where the quantity released per unit area was proportional to the square root of time. The controlled release of glimepiride was achieved using the EVA polymer including the plasticizer. Among the plasticizers used, such as the alkyl citrates and phthalates groups, diethyl phthalate slightly increased the rate of glimepiride release. Among the various enhancers used, such as the non-ionic surfactants, the glycerides, the propylene glycol derivatives, fatty acids (saturated or unsaturated), and pyrrolidones, linoleic acid showed the highest permeation rate; 3.17-times higher than the control. In conclusion, an EVA matrix containing a permeation enhancer can be used for the transdermal controlled delivery of glimepiride.

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