ABSTRACT
The goal of study was to formulate and characterize pullulan based oral thin film (OTF) of zolmitriptan by solvent casting method. Based on preliminary trials, glass, PEG 400 and sucralose were selected as casting surface, water-miscible plasticizer and sweetener for OTF, respectively. A 32 factorial design was used to study the effect of amount of PEG 400 (X1) and sucralose (X2) as independent variables on tensile strength (Y1), elasticity (Y2), % in-vitro drug release in phosphate buffer of pH 6.8 at 5min (Q5min, Y3) and overall taste of OTF (Y4) as responses. OTF of batch F4 (PEG 400, 200mg; sucralose, 12mg) was identified as an optimized batch showing in-vitro, in-vivo disintegration time 20.70 and 21.58s, respectively; 95.53% Q5min; satisfactory thickness, strength, % elongation, ease of handling, smooth mouthfeel, excellent overall taste; even distribution of all ingredients in pullulan OTF (SEM study); and stable film at specified conditions concluding that pullulan, PEG 400 and sucralose are used in combination to make palatable, stable OTF of zolmitriptan.
Subject(s)
Glucans/chemistry , Oxazolidinones/administration & dosage , Oxazolidinones/pharmacology , Tryptamines/administration & dosage , Tryptamines/pharmacology , Administration, Oral , Analysis of Variance , Drug Liberation , Drug Stability , Humans , Hydrogen-Ion Concentration , Molecular Weight , Reproducibility of Results , Spectroscopy, Fourier Transform Infrared , Tensile StrengthABSTRACT
The study shows development and optimization of modified release interpenetrating polymer network (IPN) macromolecules (beads) of oxcarbazepine using sodium alginate-egg albumin prepared by ionotropic gelation method and CaCl2 as a cross-linker. Independent variables were identified based on preliminary study of investigation. The effect of amount of both polymers on drug entrapment efficiency (DEE,%), bead size (µm) and cumulative drug release at 8 h (Q8h, %) were optimized using 3(2) factorial design. The DEE, average size and Q8h were found in the range of 65.08-91.02%, 976-1084 µm and 73.50-94.06% respectively. The beads were also characterized by FTIR, DSC, SEM and XRD. The experiential responses were coincided well with predicted values obtained by Design-Expert(®) 8.0.6.1 software. The swelling of beads were influenced by the pH of a release medium. The in vitro drug release from IPN beads exhibited sustained release Hixson-Crowell pattern with anomalous non-Fickian diffusion mechanism concluding that the developed sodium alginate-egg albumin IPN composite beads are suitable for sustained delivery of oxcarbazepine for desired period.