PURPOSE: To evaluate the phase separation in itraconazole/Eudragit E100 solid dispersions prepared by hot-stage extrusion. METHODS: Extrudates were prepared using a corotating twin-screw extruder at 180 degrees C. Micro-TA was used to evaluate the phase separation, where the AFM mode is used to visualize the different phases and local thermal analysis (LTA) to characterize the different phases RESULTS: Itraconazole formed a homogeneous mixture with Eudragit E100 with drug concentrations up to approximately 20%. Above this concentration, phase separation was observed. MTDSC revealed two Tgs and the mesophase of free glassy itraconazole. Performing micro-TA on the surface of these dispersions indicated an increase in sample roughness in the z-axis piezo signal, which could be an indication of free glassy itraconazole. However, thermal conductivity did not reveal differences between separate phases. Performing LTA, where only a small area (20 x 20 microm) is heated, showed two separate and mixed phases of itraconazole and Eudragit E100. Tip penetration in itraconazole and Eudragit E100 occurred at 332K and 383K respectively. The difference in tip penetration was explained in terms of the difference in fragility. CONCLUSION: Micro-TA makes it possible to characterize separate phases of itraconazole and Eudragit E100, thereby confirming the MTDSC results on phase separation.
PURPOSE: To evaluate the phase separation in itraconazole/Eudragit E100 solid dispersions prepared by hot-stage extrusion. METHODS: Extrudates were prepared using a corotating twin-screw extruder at 180 degrees C. Micro-TA was used to evaluate the phase separation, where the AFM mode is used to visualize the different phases and local thermal analysis (LTA) to characterize the different phases RESULTS:Itraconazole formed a homogeneous mixture with Eudragit E100 with drug concentrations up to approximately 20%. Above this concentration, phase separation was observed. MTDSC revealed two Tgs and the mesophase of free glassy itraconazole. Performing micro-TA on the surface of these dispersions indicated an increase in sample roughness in the z-axis piezo signal, which could be an indication of free glassy itraconazole. However, thermal conductivity did not reveal differences between separate phases. Performing LTA, where only a small area (20 x 20 microm) is heated, showed two separate and mixed phases of itraconazole and Eudragit E100. Tip penetration in itraconazole and Eudragit E100 occurred at 332K and 383K respectively. The difference in tip penetration was explained in terms of the difference in fragility. CONCLUSION: Micro-TA makes it possible to characterize separate phases of itraconazole and Eudragit E100, thereby confirming the MTDSC results on phase separation.
Authors: Matthew S Lamm; James DiNunzio; Nazia N Khawaja; Louis S Crocker; Anthony Pecora Journal: AAPS PharmSciTech Date: 2015-08-18 Impact factor: 3.246
Authors: Matthias Eckhard Lauer; Olaf Grassmann; Monira Siam; Joseph Tardio; Laurence Jacob; Susanne Page; Johannes Heinrich Kindt; Andreas Engel; Jochem Alsenz Journal: Pharm Res Date: 2010-11-03 Impact factor: 4.200