1. Intranasal versus intraperitoneal Myrj 59-stabilized cubosomes: A potential armamentarium of effective anti-diabetic therapy
- Author
-
Heba A. Gad, Mai Mansour, and Enas Elmowafy
- Subjects
02 engineering and technology ,Pharmacology ,01 natural sciences ,Colloid and Surface Chemistry ,0103 physical sciences ,medicine ,Diabetes Mellitus ,Humans ,Physical and Theoretical Chemistry ,Particle Size ,Administration, Intranasal ,010304 chemical physics ,Chemistry ,Surfaces and Interfaces ,General Medicine ,Poloxamer ,021001 nanoscience & nanotechnology ,Repaglinide ,Drug Liberation ,Drug release ,Nasal administration ,Delivery system ,0210 nano-technology ,Gels ,Biotechnology ,medicine.drug - Abstract
The present study is concerned with the suitability of using Myrj 59, out-performing the commonly used stabilizer i.e., poloxamer, for preparation of cubosomes on one hand and gives an insight into the need for distinctive choice of delivery system and administration route towards better diabetes pharmacotherapy on the other hand. In light, repaglinide (REP) cubosomal dispersion and in-situ gel forms were prepared and physicochemically characterized. The selected cubosomal forms were tested for in-vitro drug release and administered via intranasal (IN) and intraperitoneal (IP) routes and compared with Intravenous (IV) REP solution regarding in-vivo antidiabetic efficacy. The results confirmed the formation of cubic nanostructures (170−233 nm), entrapping high REP amounts (93.2–95.66 %). Sustained REP release from selected cubosomal forms was realized with no burst release. Upon in-vivo assessment, IN and IP REP cubosomes and cubosomal gel exhibited superior long-acting in-vivo traits over IV REP solution, respecting percentages of maximum reduction, total decrease in BG levels, and the pharmacological availability. Moreover, IP REP cubosomes and cubosomal gel revealed higher values of the aforementioned parameters than IN counterparts. In conclusion, IN and IP administration of the newly developed cubosomal forms could proffer feasible options for an optimal control of BG levels.
- Published
- 2020