Mucoadhesive electrospun nanofibrous poly(ε-caprolactone)/poly(lactic acid) matrices for the ocular delivery of moxifloxacin: a novel application of hyaluronic acid and xanthan gum blend as mucoadhesive coating agent

Abstract

The use of ocular inserts (OS) as vehicles for the delivery of antimicrobial agents to the eye is rapidly growing. In fact, the intraOS can deliver the antibiotics to the ocular surface after ophthalmic surgeries i.e., cataract. This was a rational progress of pharmaceutical field given that the conventional dosage forms i.e., drops present many limitations. Considering this fact, in this study novel nanofibrous inserts based on poly(ε-caprolactone) and poly(lactic acid) prepared via electrospinning process and used to load an antibiotic drug, moxifloxacin. The used aliphatic polyesters are biocompatible but do not present mucoadhesion which is essential for ocular drug delivery. Therefore, two known mucoadhesive agents, hyaluronic acid and xanthan gum, were blended in various concentrations (0.1 and 0.2%) and used for the coating of the fibers. The fibrous inserts have mean diameters in the range 500–1000 nm. The inserts showed stability over time, improved water uptake and improved mechanical properties. In vitro cytotoxicity studies revealed the biocompatibility of the structures. From in vitro release studies, a controlled release rate was depicted while the inserts demonstrated desirable antimicrobial properties. It can be concluded that the coated OS can be potent ocular delivery carriers of moxifloxacin battling against eye infections.