Abstract

We report on hybrid nanomicelle-polymer inserts for improved delivery of cyclosporine A (CyA) to the surface of the eye. Hybrid inserts containing a nanomicellar formulation were prepared by the solvent casting method; their characteristics, <i>in vitro</i> release of CyA, eye irritation potential, nanomicelle distribution inside the insert, and <i>in vivo</i> pharmacokinetics of the most promising solid formulation (F3) were investigated. Nanomicelles capable of accommodating a therapeutically relevant amount of CyA (57.22 ± 5.90-68.52 ± 1.4 μg) were incorporated into five different polymeric formulations (F1-F5). The developed inserts displayed promising characteristics (size, weight, surface pH, and contact angle) that fulfill ocular tolerability requirements. Considering the technological properties and CyA <i>in vitro</i> release, F3 and F5 were the most promising formulations. SEM analysis suggested the F3 formulation as the potential prototype for CyA ocular delivery. The F3 formulation (CyA: 60.08 ± 2.85 μg) did not induce conjunctival irritation when HET-CAM assay was performed and was hence considered suitable for further study in a rabbit eye. The AUC value for CyA loaded in the F3 insert was about 2-fold greater than that obtained with the Ikervis® used as a control formulation. F3 produced a significant reduction (of about 7-folds) in the rate of CyA elimination from the tear fluid relative to Ikervis® and about 4-fold greater reduction than Nano-CyA (<i>p</i> = 0.0187). The ability of F3 to delay the elimination of the drug from the precorneal area is particularly desirable when treating dry eye syndrome. Furthermore, F3 did not induce ocular discomfort, a typical characteristic of solid ocular inserts, including commercially available ones.