Ionic gelation

The purpose of this study was to develop chitosan based anastrozole nanoparticles for treatment of breast cancer. An ionic gelation method was used to prepare anastrozole controlled-release nanoparticles. A 32 full factorial design was employed. Experimental variables such as concentration of CS and cross-linking agent sodium TPP were varied to study their effect on drug entrapment efficiency and release rates of drug from nanoparticles. Fourier transform infrared spectroscopic (FTIR) analysis and differential scanning calorimetry (DSC) were employed to determine any interactions between drug and polymer. The FTIR studies revealed no chemical interaction between the drug and the polymer. Entrapment efficiency of nanoparticles ranged between 51.51 ± 0.81 % to 84.35 ± 1.06 %.In-vitro release studies were performed in phosphate buffer saline of pH 7.4. A slow release of anastrozole up to 72 h was observed. Mean particle size of nanoparticles ranged between 1635 nm to 72.30 nm with mean particle size of 273.6 nm, while zeta potential 0.52 mV. DSC results indicated that the anastrozole entrapped in the nanoparticles existed in an amorphous or disordered-crystalline status in the polymer matrix. Scanning electron microscopy was done to study the surface morphology. Results revealed that more spherical shaped particles with possible aggregation. The highest correlation coefficients were obtained for the Higuchi model, suggesting a diffusion mechanism for the drug release. The results demonstrated that anastrozole nanoparticles with chitosan could be an alternative delivery method for the long-term treatment of breast cancer.

The main aim of present study is to formulation & optimize Gliclazide alginate microspheres by plackett burman’s factorial design. Which offers a flexible and easily controllable process for the manipulating the characteristics of the beads which is important in controlling the release rate and consequently the absorption of Gliclazide from the GIT, variation in polymer, concentration, time of gelation in the external phase were examined systemically for their effects on rate release and entrapment efficiency by Plackett Burman’s factorial design. The swelling behavior strongly depends on the polymer concentration. The result of the study will depends on the release profile of the drug from the formulation. The formulations follows zero order kinetics for the drug release. The in vitro release study indicates that the swelling is the main parameter in controlling the release rate from microcapsules.