Surface modified niosomes of olanzapine for brain targeting via nasal route; preparation, optimization, and in vivo evaluation

Abstract

Olanzapine (OL) is an atypical antipsychotic drug which suffers from an extensive hepatic metabolism and poor bioavailability. In addition, it has low brain permeability due to efflux by P-glycoproteins. In the current investigation, surface modified niosomes containing OL were prepared for brain targeting of the drug through nasal route. Spans were mixed with cholesterol at ratios of 1:1, 1:2, 1:3, and 1:4 of cholesterol to surfactant, respectively to prepare niosomes. Chitosan (CS) coated vesicles were prepared by mixing optimum niosomal formula with CS solution (0.6%). Physicochemical and stability parameters and confocal laser scanning microscopy (CLSM) of developed vesicles were determined. Also, the brain targeting properties of the optimized formula were measured in rats. Niosomes had entrapment efficiency more than 90% and particle size ranging from 201.3 ± 2.4 nm to 1446 ± 9 nm. TEM photomicrographs of developed vesicles showed a clear shell surrounding the coated vesicles. The produced vesicles exhibited 2.46 folds increase in the amount of drug that permeated nasal mucosa and prolonged OL release compared to drug solution. Coated niosomes further improved drug permeation. CLSM of coated optimum formula showed high permeation across the nasal mucosa. Stability studies revealed non-significant changes in the physicochemical parameters of optimum formula over the storage period. The optimized nasal CS-coated niosomes showed a three-fold increase in OL concentration in the brain compared to the intranasal solution of the drug. In conclusion, the developed vesicles were efficient in nasal delivery of OL into the brain.

Keywords:

• Surface modification
• niosomes
• chitosan
• olanzapine
• brain targeting
• intranasal

Disclosure statement

No potential conflict of interest was reported by the authors.