PENGARUH KOMBINASI POLIMER HIDROKSIPROPIL METILSELULOSA DAN METILSELULOSA TERHADAP KARAKTER FISIK, PROFIL PELEPASAN DAN TRANSPOR KETOPROFEN DARI MATRIKSPATCH TRANSDERMAL

Ketoprofen is a propionic acid derivative that has anti-inflammatory, analgesic, and antipyreticactivities. Transdermal patch delivery is the right choice for ketoprofen in an effort to minimize side effects, improving patient compliance and ensure the achievement of therapeutic targets.This study aimed to determine the effect of the combination of MC and HPMC polymers on physical properties, release and transport profileof the ketoprofen from transdermal matrix patch. The results were analyzed using Design Expert software version 7 with simplex lattice model in order to find an optimal formula. Determination of the dissolution mechanism was analyzed using Solver based on goodness of fit between observation data and model prediction, meanwhile the transport of ketoprofen was analyzed using WinSAAM software based on compartement model. The results provided information that a combination of MC and HPMC polymers had a significant influence on the increased the patch weight, patch thickness, loss on drying and dissolution efficiency and an insignificant effect against folding endurance. Release mechanism of ketoprofen transdermal patch following non-Fickian diffusion and an optimal formula is obtained by the combination of HPMC and MC (with ratio of 0,079:0,921) which produced the flux of ketoprofen in the range from 0.38 mg/hr up to 1.33 mg/hr, these fluxes would be expected to deliver ketoprofen with maximum plasma level (Cp max.)0.32 mg/L to 0.68 mg/L, respectively.