Fatma Ahmed Mohamed Moawad

assistant lecturer

Basic Informations

C.V

Master Title

formulation and evaluation of certain skeletal muscle relaxants in new dosage forms

Master Abstract

The purpose of the study was to develop nanotransfersomes-loaded thermosensitive in situ gel for rectal administration of tizanidine HCl, aiming to bypass the hepatic first pass effect with improved bioavailability and sustained release of the drug. Tizanidine HCl-loaded transfersomes were prepared by thin-film hydration method followed by characterization of the prepared vesicles for various parameters such as entrapment efficiency, particle size, in vitro release study and ex vivo permeation study. Tizanidine HCl-loaded transfersomal formula composed of phosphatidylcholine and tween 80 at a weight ratio of (85:15) gave satisfactory results. It exhibited encapsulation efficiency of 52.39 %, particle size of 150.33 nm, controlled tizanidine release over 8 h and good permeation characteristics. It was then incorporated into pluronic based thermo-reversible in situ gel using HPMC as a mucoadhesive polymer. In situ gel was further characterized in term of physical parameters, in vitro drug release, ex vivo permeation study, in vivo localization and histopathological evaluation. Finally, pharmacokinetic study of transfersomes-loaded in situ gel was performed after its rectal administration to rabbits and compared with rectal tizanidine HCl in situ gel and oral drug solution. The study revealed that the formulation successively enhanced the bioavailability of TIZ by about 2.2 fold and increased the half-life of the drug to about 10 h. It can be concluded that the incorporation of nanotransfersomes into gel vehicle can achieve a dual purpose of prolonged tizanidine HCl release and enhanced bioavailability. Thus, tizanidine HCl transfersomes-loaded in situ gel was found to be a promising drug delivery system for the treatment of spasticity.

PHD Title

PHD Abstract

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