ABSTRACT
The aim of the present study was the formulation and evaluation of controlled release polymeric tablets of Diclofenac Potassium by wet granulation method for the release rate, release pattern and the mechanism involved in drug release. Formulations having three grades of polymer Ethocel [7P; 7FP, 10P, 10FP, 100P, 100FP] in several drugs to polymer ratios [10:3 and 10:1] were compressed into tablets using wet granulation method. Co-excipients were added to some selected formulations to investigate their enhancement effect on in vitro drug release patterns. In vitro drug release studies were performed using USP Method-1 [Rotating Basket method] and Phosphate buffer [pH 7.4] was used as a dissolution medium. The similarities and dissimilarities of release profiles of test formulations with reference standard were checked using f2 similarity factor and f1 dissimilarity factor. Mathematical/Kinetic models were employed to determine the release mechanism and drug release kinetics
ABSTRACT
The aim of the study was to formulate and evaluate topically applied ketoprofen gels and patches and to see the effect of naturally occurring almond oil as penetration enhancer on the penetration of ketoprofen through artificial membrane/rabbit skin. Prior to ketoprofen gel and patch formulation, the particle size and particle size determination of ketoprofen was analyzed by Particle size analyzer [Horiba LA300]. Ketoprofen gels and patches were formulated and almond oil was added in several concentrations i.e. 0.5%, 1%, 1.5%, 2%, 2.5% and 3%. The formulated gels were evaluated by several parameters like pH, spreadibility, consistency, homogeneity, skin irritation and drug content determination. In vitro drug permeation studies from transdermal gels and patches were carried out across artificial membrane and rabbit skin by using Franz Cell Apparatus [PermeGear, USA]. Kinetics model was employed to the release patterns of ketoprofen from gel and patches in order to investigate the drug transport mechanism. The cumulative amount of drug penetrated from different formulations was statistically evaluated by using One-way analysis of variance [ANOVA]. Stability study was performed for various batches of ketoprofen transdermal gel. Almond oil as penetration enhancer in various concentrations significantly enhances the penetration of drug from transdermal gels and patch across synthetic membrane/rabbit skin but was most significant when used in 3% concentration
ABSTRACT
Being controlled release dosage forms, tablets allow an improved absorption and release profiles of Ofloxacin. The fact that drugs with fine particles size can be compressed well after wetting, so in our research studies Ofloxacin controlled release matrix tablets were prepared by wet granulation technique. In order to investigate the potential of Ethyl cellulose ether derivatives as a matrix material, Ofloxacin formulations with different types and grades of Ethocel were prepared at several drug-to-polymer ratios. The method adopted for in vitro drug release studies was USP Method-1 [rotating Basket Method] by Pharma test dissolution apparatus using phosphate buffer 7.4 pH as a dissolution medium. Various Kinetic models were employed to the formulations for the purpose of determination of release mechanism. A comparative study was performed between the tested Ofloxacin-Ethocel formulations and a standard reference obtained from the local market. FI dissimilarity factor and f2 similarity factor were applied to the formulations for the checking of dissimilarities and similarities between the tested formulations and reference standard