Powder Technology, Vol.320, 685-695, 2017
Understanding the process-product-performance interplay of spray dried drug-polymer systems through complete structural and chemical characterization of single spray dried particles
A complete description of the particle formation process can only be realized with techniques that enable the measurement of the composition and structural dependence of individual particles. The purpose of this publication is to highlight the utility of one such high resolution imaging technique; focused ion scanning electron microscopy (FIB-SEM). As a model system, amorphous dispersion particles of felodipine and polyvinylpyrrolidone (PVP) were prepared by spray drying and used to interrogate single particles. Further, FIB-SEM was coupled with energy dispersive X-ray analysis (EDX) to characterize spatial chemical distributions in spray dried amorphous solid dispersion particles. Within a single spray drying batch, individual particles exhibited different phase behavior as a function of particle size. Larger particles showed notable amorphous amorphous phase separation while smaller particles showed uniform composition. The morphology of particles was also found to be a function of particle size. Larger particles were consistently more porous in nature compared to smaller particles. The observed differences in compositional heterogeneity of different spray dried particles as a function of size are interpreted via theoretical arguments based on the Peclet number, the ratio of the evaporative flux of the solvent to the diffusive flux of the drug and the polymer within the droplet. Phase behavior may also be interpreted in terms of equilibrium ternary phase diagrams. Regardless, commonly used bulk physical and chemical characterization techniques may be used to establish correlations between the nature of the dispersion and the processing parameters. However, these techniques lack the resolution to provide a scientific link between the processing conditions and the nature of individual particles. The current paper highlights the utility of high resolution morphological and compositional measurements of individual particles. (C) 2017 Elsevier B.V. All rights reserved.
Keywords:Amorphous solid dispersion;Spray drying;Particle sizing;Image analysis;Microparticles;Droplet drying kinetics;Mass transfer;Droplet theory;Spray technology;High resolution imaging;Focused ion beam scanning electron microscopy;Energy dispersive X-ray analysis