Enhanced ocular delivery of clotrimazole via loading into mucoadhesive microemulsion system: In vitro characterization and in vivo assessment

Abstract

This work aimed to formulate clotrimazole (CLZ), a water-insoluble antifungal drug, into a chitosan-coated microemulsion system for achieving enhanced ocular delivery. In this study, CLZ loaded microemulsions were firstly prepared according to 22 × 31 full factorial design in order to investigate the influence of different formulation variables on microemulsion properties. The selected microemulsion formulation (F4: oleic acid, Cremophor EL: Transcutol HP (1:1) and water (20, 70 and 10%, w/w, respectively)) showed nanosized spherical globules with a droplet size of 229.1 ± 0.989 nm, polydispersity index of 0.5085 ± 0.0095, and zeta potential of −33.3 ± 0.98 mV. The selected microemulsion was then coated with low molecular weight chitosan to increase the contact time with the eye surface. In vivo studies in albino rabbits demonstrated the superiority of chitosan-coated microemulsion over the uncoated microemulsion and drug suspension formulation concerning sustainment of antifungal activity over the eye surface. Moreover, the in vivo, ocular tolerance and histopathological studies conducted using male albino rabbits proved the safety of the prepared microemulsions after topical ocular application. Generally, the obtained results confirmed that CLZ chitosan-coated microemulsion could be promising for ocular CLZ delivery.