Abstract
Sitagliptin (SGN) is an antidiabetic drug used for treatment of diabetes mellitus type II. The objectives of this study were to formulate SGN in form of thiolated chitosan (TC) nanoparticles to enhance the mucoadhesion properties of SGN to the gastrointestinal tract, prolong drug release, decrease side effects, and enhance patient compliance. Seventeen batches of SGN-TC nanoparticles were designed by Box-Behnken design and prepared using the ionic gelation method using tripolyphosphate (TPP) as crosslinking agent. The prepared formulations were evaluated for particle size, entrapment efficiency %, and in vitro drug release. Based on the results of optimization, three formulations (F1–F3) were prepared with different drug polymer ratios (1:1, 1:2, and 1:3). The mucoadhesion study and in vivo hypoglycemic activity of three formulations were evaluated in comparison to free SGN in streptozotocin (STZ)-induced diabetic rats. The seventeen SGN-TC nanoparticles showed small particle sizes, high entrapment efficiency, and prolonged drug release. The concentration of TC polymers had highest effect on these responses. The percentage of SGN–TC nanoparticles adhered to tissue was increased and the release was prolonged as the concentration of TC polymer increased (F3 > F2 > F1). The hypoglycemic effect of SGN-TC nanoparticles was significantly higher than resulted by free SGN. It was concluded that TC nanoparticles had the ability to enhance the mucoadhesion properties of SGN and prolong the drug release. SGN-TC nanoparticles significantly reduced plasma glucose levels compared to free SGN in STZ-induced diabetic rats.
Highlights
The mucoadhesive delivery system has improved the pharmacokinetic and pharmacological properties of drugs, which can be advantageous when used in the treatment of acute and chronic diseases [1]
A Box-Behnken design using Stat-Ease design expert software version no.10 was used for preparation of SGN loaded thiolated chitosan (TC) nanoparticles for targeting diabetes mellitus
The results indicated that the release of SGN from mucoadhesive TC nanoparticles was diffusion controlled which represents one tool of achieving sustained drug release
Summary
The mucoadhesive delivery system has improved the pharmacokinetic and pharmacological properties of drugs, which can be advantageous when used in the treatment of acute and chronic diseases [1]. It has been shown that higher adhesive properties can be provided by polymers containing thiol groups which showed enhanced absorption of the drug in the gastro intestinal tract (GIT) region [5]. Thiolated polymers, which are covalently adhered to the mucus layer through formation of disulfide bridges with the glycoproteins of mucin, result in enhanced mucoadhesion [7]. Chen et al and Shahnaz et al reported that thiolated polymers could improve mucoadhesive properties up to 140-fold due to the immobilization mechanism of thiol groups [8,9]
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