Application and Characterization of Multiparticle System for Solubilization of Itraconazole
OBJECTIVE To solve the problem of insolubility of itraconazole,improve its dissolution in vitro,and provide a reference for further industrial scale-up of the itraconazole multiparticle system.METHODS Itraconazole multiparticle system pellets were dissolved in an organic solvent and prepared in a fluidized bed by bottom spraying.Itraconazole and hydroxypropyl methylcellulose were sprayed onto the surface of the sucrose pellet core to form a uniform solid dispersion.The preparation parameters of the fluidized bed bottom spray coating were investigated by single factor method.The mass ratio of drug to carrier and core weight gain of the itraconazole multiparticle system were optimized by central composite design and response surface methodology with accumulative dissolution rate,application efficiency and adhesion rate as response values.Samples were prepared to verify the optimized prescription,the microscopic hierarchical structure of the itraconazole multiparticle system was observed by scanning electron microscope,and the solid dispersion in the itraconazole multiparticle system pellets was characterized by differential scanning calorimetry(DSC)and X-ray diffraction(XRD).The dissolution curves of itraconazole pellets and the physical mixture in 0.1 mol·L-1 HCl dissolution medium were compared to verify the solubilization effect.RESULTS Single factor method was used to determine the bottom spray coating parameters of the fluidized bed.The pumping speed was set as 3.0-5.0 mL·min-1,the atomization pressure was set as 1.5 bar,the inlet air volume was set as 110 m3·h-1,and the material temperature was set as 35 ℃.According to the central composite design and response surface methodology,the mass ratio of drug to carrier of the optimized prescription was 1∶1.5 and the core weight of the pill was 75%,and the response values reached the expected value.The result of scanning electron microscopy showed that the diameter of the itraconazole multiparticle system pellet was about 910 μm,the diameter of the sucrose pellet core was about 570 μm,the thickness of the drug loading layer was about 110 μm,and the thickness of encapsulation layer was about 11 μm.The results of DSC and XRD showed that itraconazole formed a uniform solid dispersion in the itraconazole multiparticle system pellets,which was amorphous.In the dissolution medium of 0.1 mol·L-1 HC1,the accumulative dissolution rate of the multiparticle system after 90 min was about 10 times that of the physical mixture,which showed that the solubilization effect was remarkable.CONCLUSION The dissolution of itraconazole in vitro can be significantly improved by processing itraconazole into pellets with multiparticle system and forming solid dispersion.
itraconazolemultiparticle systemsolubilizationcentral composite design and response surface methodologydissolution in vitro
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