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Abstract
Objective: The objective of the study was to develop interpenetrating polymeric network (IPN) of capecitabine (CAP) using natural polymers locust bean gum (LBG) and sodium alginate (NaAlg).
Significance: The IPN microbeads were optimized by Box–Behnken Design (BBD) to provide anticipated particle size with good drug entrapment efficiency. The comparative dissolution profile of IPN microbeads of CAP with the marketed preparation proved an excellent sustained drug delivery vehicle.
Methods: Ionotropic gelation method utilizing metal ion calcium (Ca2+) as a cross-linker was used to prepare IPN microbeads. The optimization study was done by response surface methodology based Box–Behnken Design. The effect of the factors on the responses of optimized batch was exhibited through response surface and contour plots. The optimized batch was analyzed for particle size, % drug entrapment, pharmacokinetic study, in vitro drug release study and further characterized by FTIR, XRD, and SEM. To study the water uptake capacity and hydrodynamic activity of the polymers, swelling studies and viscosity measurement were performed, respectively.
Results: The particle size and % drug entrapment of the optimized batch was 494.37 ± 1.4 µm and 81.39 ± 2.9%, respectively, closer to the value predicted by Minitab 17 software. The in vitro drug release study showed sustained release of 92% for 12 h and followed anomalous drug release pattern. The derived pharmacokinetic parameters of optimized batch showed improved results than pure CAP.
Conclusion: Thus, the formed IPN microbeads of CAP proved to be an effective extended drug delivery vehicle for the water soluble antineoplastic drug.
Acknowledgements
The authors are thankful to Indian Institute of Technology (BHU), Varanasi for providing financial and all the necessary support. The authors are also grateful to Cipla Ltd. Bangalore, India for providing a gift sample of Capecitabine.
Disclosure statement
The authors declare no conflict of interest.