Ocular amphotericin B delivery by chitosan-modified nanostructured lipid carriers for fungal keratitis-targeted therapy

Fungal keratitis, a corneal fungal infection of the eye caused mainly by Candida species, has become the leading cause of blindness resulting from corneal disease in China. Present limitations in the management of ophthalmic fungal infections include the inability to provide long-term extraocular drug delivery without compromising intraocular structures and/or systemic drug exposure.The aim of this study was to construct amphotericin B (AmB) loaded, chitosan-modified, nanostructured lipid carriers (AmB-CH-NLC) for prolonged ocular application and for the improvement of the targeted delivery of AmB to the ocular mucosa.The AmB-CH-NLC was produced by the method of emulsion evaporation-solidification at low temperature. The particle size, zeta potential, and encapsulation efficiency, drug-release behavior, and corneal penetration ability were performed in vitro and in vivo.The prepared AmB-CH-NLC nanoparticles exhibited a measured size of 185.4 nm, a zeta potential of 27.1 mV, and an entrapment efficiency of 90.9%. Sustained drug release behavior was observed in vitro. The in vivo ocular pharmacokinetic study indicated improved bioavailability of AmB-CH-NLC. The corneal penetration study showed that the AmB-CH-NLC could successfully penetrate into the cornea with no obvious irritation to the rabbits' eyes.The results support that this novel nanomedicine could be a promising system for effective ocular delivery of amphotericin B for fungal keratitis-targeted therapy.