Abstract
Purpose: To evaluate the mechanism of drug release of a slightly soluble drug (theophylline) from nanocomposite of zeolite (ZLT) or hydrotalcite (HTC) used as drug carrier.Methods: Nanocomposite was prepared with dispersion of either ZLT or HTC as drug carrier and theophylline (THP) as drug in drug to clay ratios of 1:2, 3:4 and 1:1. The formulations were characterized for drug release and loading. Dependent and independent kinetic models were employed to analyze the drug release data. Fourier transform infrared spectroscopy (FTIR) was used for the structural characterization of the formulations.Results: Nanocomposite was formed due to incorporation of the drug in the basal spacing of ZLT/HTC. The drug loading of THP/ZLT and THP/HTC composites were 38.10 % for 2 h and 27.35 % for 3 h, respectively. HTC and ZLT nanocomposite retarded drug release for 6 h. Non-linear and Peppas-Sahlin were the best fitting kinetic release models based on the goodness of fit.Conclusion: ZLT provides better drug loading capacity than HTC. However, both ZLT and HTC are suitable for the formulation of controlled release products. The drug release kinetics and mechanism were a combination of Fickian and non-Fickian diffusion.Keywords: Zeolite, Hydrotalcite, Clays, Nanocomposite, Theophylline, Drug Release Kinetics, Basal Spacing
Highlights
Controlled drug delivery systems using clays, such as mesoporous silica, have been reported extensively by several researchers [1,2,3]
Zeolite (ZLT) and hydrotalcite (HTC) are composed of layers of large and insoluble cations, those are weakly bound to the space between interlayers [4]
The ZLT showed higher drug loading after 1.5 h, at initial time the HTC provided better drug loading than ZLT, all of the drug loading kinetic profiles showed that reducing of drug loading overtime after 3 h for HTC and 2 h for ZLT
Summary
Controlled drug delivery systems using clays, such as mesoporous silica, have been reported extensively by several researchers [1,2,3]. Zeolite (ZLT) and hydrotalcite (HTC) are composed of layers of large and insoluble cations, those are weakly bound to the space between interlayers [4]. Some properties of the clays include swellability, cation/anion exchange and intercalation. These properties make them promising candidate in development of drugnanoclay composites for controlled release drug delivery systems [5,6]. ZLT and HTC have large pores and drug as guest molecules can be loaded into the nanoporous structure [7]. The nanopores are knew as basal spacing which nanocomposite can be formed naturally [8]
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