Objective: Atorvastatin (ATV) is effective in reducing total cholesterol and low-density lipoprotein levels. Furthermore, it produces pleiotropic effects in neurodegenerative conditions such as Parkinson's, Alzheimer's, and epilepsy. However, due to the effective defense system of the central nervous system (CNS), the development of new medicines for clinical conditions has proven difficult. In this context, nanotechnology was applied as a promising solution to promote drug vectorization to the brain. Methods: The solvent emulsification-diffusion method was used to develop nanoparticles (NPs) based on polylactic acid and coated with polysorbate 80 containing ATV. Quality-by-Design (QbD) was used in the optimization of nanoparticles production through the application of the experimental design Box-Behnken Design. Results: After optimizing the independent factors including sonication time, surfactant concentration and surfactant volume, the NPs presented physicochemical characteristics such as entrapment efficiency of 86.4 ± 2.4%, mean size of 225.2 ± 4.8 nm, and zeta potential of -14.4 ± 0.36 mV. In the in vitro release study, approximately 20% of the encapsulated ATV was released. Conclusion: The application of QbD was very useful in demonstrating its applicability in the nanotechnological pharmaceutical area for controlling and predicting the influence of the variables in the production of NPs. The NPs developed in this study presented adequate physicochemical characteristics, which is promising for future in vivo studies. Conclusion: The physicochemical characteristics included entrapment efficiency of 86.4 ± 2.4%, mean size of 225.2 ± 4.8 nm, and zeta potential of -14.4 ± 0.36 mV. In the in vitro release study, approximately 20% of the encapsulated ATV was released. The application of QbD was very useful in demonstrating its applicability in the nanotechnological pharmaceutical area for controlling and predicting the influence of the variables in the production of NPs. The NPs developed in this study presented adequate physicochemical characteristics, which is promising for future in vivo studies.
Background: Ezetimibe is a lipid-lowering agent used therapeutically alone or in combination of other drugs. The properties of the solid-state of drugs are critical factors in the pharmaceutical formulation development. Several instrumental techniques can be employed in the analysis of new formulations, but the thermoanalytical techniques, provide a fast and careful evaluation of physicochemical properties of a compound. </P><P> Objective: To carry out the physicochemical characterization, purity evaluation and non-isothermal kinetic studies of ezetimibe raw material. Methods: A combination of the following different analytical technics was employed: Differential Scanning Calorimetry, Thermogravimetric, Scanning Electron Microscopy, X-ray powder diffraction. Results: The results evidenced the crystalline characteristic of ezetimibe. The sample purity was 99.06 % ± 0.02 and the thermal decomposition followed a zero order kinetic, with activation energy of 96.56 kJ mol–1 and Arrhenius frequency factor of 3,442 x 109 min-1. Conclusion: The characterization of ezetimibe together with the non-isothermal kinetic degradation represents important studies for the pharmaceutical area, since it provides crucial information for the pharmacotechnical/quality control/production areas that should establish the specifications necessary to standardize the requirements of the raw material acquire to ensure the batch-to-batch reproducibility.
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