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AuthorUllah, Shafi
AuthorShah, Muhammad Raza
AuthorShoaib, Mohammad
AuthorImran, Muhammad
AuthorElhissi, Abdelbary M. A.
AuthorAhmad, Farid
AuthorAli, Imdad
AuthorShah, Syed Wadood Ali
Available date2021-04-11T11:07:19Z
Publication Date2016
Publication NameDrug Delivery
ResourceScopus
URIhttp://dx.doi.org/10.1080/10717544.2016.1196768
URIhttp://hdl.handle.net/10576/18210
AbstractContext: Nonionic surfactant vesicles have gained increasing scientific attention for hydrophobic drugs delivery due to their biocompatibility, stability and low cost. Objective: The aim of the present study was to synthesize and evaluate a novel creatinine-based nonionic surfactant in terms of its ability to generate biocompatible niosomal system for the delivery of Clarithromycin. Materials and Methods: The surfactant was synthesized by reacting creatinine with lauroyl chloride followed by characterization using 1HNMR and MS. The drug-loaded niosomal vesicles of the surfactant were characterized for drug encapsulation efficiency (EE) using LC-MS, vesicle size using dynamic light scattering (DLS) and vesicle shape using atomic force microscopy (AFM). The surfactant was also investigated for blood hemolysis, in vitro cytotoxicity against different cell lines and in vivo acute toxicity in mice. Furthermore, the in vivo bioavailability of Clarithromycin encapsulated in the novel niosomal formulation was investigated using rabbits and quantified through validated LC-MS/MS method. Results and discussion: Findings showed that vesicles were able to entrap up to 67.82 � 1.27% of the drug, and were rounded in shape with a size around 202.73 � 5.30 nm and low polydispersity. The surfactant caused negligible blood hemolysis, very low cytotoxicity and was found to be safe up to 2500 mg/kg body weight using mice. The niosomal formulation showed twofold enhanced oral bioavailability of Clarithromycin as compared to commercial formulations of the drug. Conclusion: The study has shown that the creatinine-based niosomes developed in our laboratory were biocompatible, safe and increased the oral bioavailability of the model hydrophobic Clarithromycin using experimental animals.
Languageen
PublisherTaylor and Francis Ltd
SubjectBioavailability
biocompatibility
LC-MS/MS
niosomal drug delivery
surfactant
TitleDevelopment of a biocompatible creatinine-based niosomal delivery system for enhanced oral bioavailability of clarithromycin
TypeArticle
Pagination3480-3491
Issue Number9
Volume Number23


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