info:eu-repo/semantics/article
The Impact of Solid Dispersion on Formulation, Using Confocal Micro Raman Spectroscopy as Tool to Probe Distribution of Components
Fecha
2018-03-16Registro en:
Melian, Elisa; Munguía, A. Beatriz; Faccio Sgiorovello, Ricardo Juan; Palma, Santiago Daniel; Domínguez, Laura; The Impact of Solid Dispersion on Formulation, Using Confocal Micro Raman Spectroscopy as Tool to Probe Distribution of Components; Springer; Journal of Pharmaceutical Innovation; 13; 1; 16-3-2018; 58-68
1939-8042
CONICET Digital
CONICET
Autor
Melian, Elisa
Munguía, A. Beatriz
Faccio Sgiorovello, Ricardo Juan
Palma, Santiago Daniel
Domínguez, Laura
Resumen
Purpose: Solid dispersions (SDs) of a poorly water-soluble drug were prepared, and their physicochemical properties were compared to those of control physical mixtures (PMs). Among the multiple techniques used to characterize the solid state of preparations, confocal micro Raman spectroscopy (CMRS) was used as a non-destructive tool to qualitatively probe content uniformity and distribution of drug and carrier. Methods: SDs and PMs of drug (fenbendazole, FBZ) were prepared containing two different carriers (poloxamer P188 or P407) with different drug polymer ratios. The preparations were characterized by powder X-ray diffractometry, Fourier transform infrared spectroscopy, thermal analysis, scanning electron microscopy, and in vitro dissolution assay. In addition, CMRS technique and principal component analysis (PCA) were used in order to statistically define the content uniformity and distribution of the drug within the polymeric matrix. Results: In vitro dissolution results exhibited a marked improvement when the drug was formulated as SD compared to control PM and to pure drug. The solid state of these preparations characterized by X-ray powder diffraction and Fourier transform infrared spectroscopy showed no changes in the crystalline state of the drug and no chemical interactions between the components. Raman studies showed a better content uniformity of the drug within the polymeric matrix when subjected to SD process, correlating with the improved dissolution profile. Conclusion: This study provides evidence of the potential of the confocal Raman imaging technique, providing a fast and powerful method to characterize solid dispersions which could be incorporated towards the use of quality by design (QbD) approaches in pharmaceutical development.