Structural and in-vitro characterization of highly swellable beta-cyclodextrin polymeric nanogels fabricated by free radical polymerization for solubility enhancement of rosuvastatin

Objective of the research was to potentiate solubility of Rosuvastatin by nanogels synthesized by free radical polymerization. Surface morphology and structural compatibility were studied through scanning electron microscopy (SEM) and Fourier Transform Infrared (FTIR) spectroscopy. Zeta sizer was used for particle size analysis. Swelling, in-vitro release and solubility studies were accomplished in different media. Similarly, results of in-vitro release of nanogels and commercially available tablets of Rosuvastatin were compared in different dissolution media. Biocompatibility study was performed in healthy rabbits for safety profile. FTIR spectroscopy confirmed the presence of corresponding peaks of respective functional groups of individual constituents and that of the drug in unloaded and loaded nanogels. SEM images depicted the fluffy appearance of nano-gels with small pores inside the structure. Particle size of the optimized formulation was in the range of 217.70 +/- 2.23 for unloaded and 257.33 +/- 2.11 for loaded nanogels. Percent drug loading, in-vitro drug release and solubility profiles were also satisfactory. In comparison with commercially available tablet Rovista((R)) , in-vitro release profiles of synthesized nanogels showed better response. Moreover, synthesized nanogels were also biocompatible. It was concluded that the solubility of Rosuvastatin was potentially enhanced by nanogels and such formulation can also be used for other poorly soluble drugs.