Abstract
The primary goal of this research was to investigate pH-triggered colon-specific ketoprofen-loaded microspheres (C-SKLM) using Eudragit S-100 as a pH-dependent polymer. The formulation was optimized using the Box-Behnken design. The suggested C-SKLM formulation with the amount of ketoprofen = 189.09 mg, the amount of Eudragit-100 = 600 mg, and the paddle speed = 400 rpm showed a considerable particle size (106 µm), drug encapsulation efficacy (79.67%), and % cumulative drug release at 5th hr (8.62) and 10th hr (92.62) for oral administration. Microphotographs of scanning electron microscopy indicated that the optimized C-SKLM was smooth and spherical. The differential scanning calorimetry and X-ray powder diffraction studies have shown that ketoprofen was dispersed in the polymer in its optimized C-SKLM formulation, and the spectra from the Fourier transform infrared study have shown no significant drug-polymer interaction. Ex-vivo permeation studies on isolated rat gastro-intestinal segments revealed that the maximum amount of ketoprofen permeated after 2 h through the isolated stomach (0.559 ± 0.049 mg), small intestine (1.36 ± 0.226 mg), and colon (0.972 ± 0.068 mg) was observed for ketoprofen pure. In contrast, a significantly lesser amount of the drug was permeated through the stomach (0.1 ± 0.025 mg) and small intestine (0.28 ± 0.1 mg) than the colon (0.697 ± 0.23 mg) from the ketoprofen-loaded microspheres formulation. In-vitro and ex-vivo permeation studies suggest that the developed C-SKLM could be helpful for the effective management of early morning symptoms due to rheumatoid arthritis by delaying the release by targeting the colon.
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