Formulation and evaluation of liquisolid compacts of itraconazole to enhance its oral bioavailability.

Aim: Formulate and evaluate liquisolid compacts of Itraconazole, a biopharmaceutical classification system class II drug, which has poor bioavailability. Materials & methods: PEG 600 was used as a nonvolatile solvent, Alfacel PH 200 as a carrier and Aerosil 200 as a coating material. The Itraconazole solution upon mixing with a carrier and coating material resulted in a dry powder, which was compressed into tablets. Results & conclusion: The optimized formulation exhibited a significantly higher drug dissolution (90.73% in 90 min) compared with conventional tablets and marketed capsules. The antifungal activity was retained in the formulation. Higher values of Cmax and AUC0-24 of the formulation compared with the plain drug indicated enhancement in oral bioavailability. The formulation was stable at room temperature as well as in accelerated conditions.

Formulation and evaluation of Itraconazole nanoemulsion for enhanced oral bioavailability.

Itraconazole (ITR), an antifungal agent has poor bioavailability due to low aqueous solubility. The present investigation aimed at development of ITR nanoemulsion to enhance its oral bioavailability. ITR nanoemulsion was prepared using Capmul MCM C8 as oil, Pluronic F68 as co-surfactant and Cremophore EL as surfactant using high speed stirring, followed by probe sonication. Nanoemulsion with average globule size of 100.9 nm and zeta potential of -35.9 ± 1.2 mV was able to penetrate well into the intestinal membrane as confirmed by the laser confocal scanning microscopy and ex vivo intestinal permeability study. Antimycotic study confirmed the efficacy of ITR nanoemulsion. Significantly higher values of pharmacokinetic parameters the formulation than the plain drug and marketed formulation indicated an increase in the bioavailability of ITR. The prepared nanoemulsion was stable at both, refrigerated and room temperature conditions. Nanoemulsion of ITR seems to be a promising formulation for enhancement of its oral bioavailability.

Formulation and evaluation of Itraconazole nanoemulsion for enhanced oral bioavailability.

Itraconazole (ITR), an antifungal agent has poor bioavailability due to low aqueous solubility. The present investigation aimed at development of ITR nanoemulsion to enhance its oral bioavailability. ITR nanoemulsion was prepared using Capmul MCM C8 as oil, Pluronic F68 as co-surfactant and Cremophore EL as surfactant using high speed stirring, followed by probe sonication. Nanoemulsion with average globule size of 100.9 nm and zeta potential of -35.9 ± 1.2 mV was able to penetrate well into the intestinal membrane as confirmed by the laser confocal scanning microscopy and ex vivo intestinal permeability study. Antimycotic study confirmed the efficacy of ITR nanoemulsion. Significantly higher values of pharmacokinetic parameters the formulation than the plain drug and marketed formulation indicated an increase in the bioavailability of ITR. The prepared nanoemulsion was stable at both, refrigerated and room temperature conditions. Nanoemulsion of ITR seems to be a promising formulation for enhancement of its oral bioavailability.