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In Vitro and Ex Vivo Evaluation of Nepafenac-Based Cyclodextrin Microparticles for Treatment of Eye Inflammation

Blanca Lorenzo-Veiga, Patricia Díaz‐Rodríguez, Carmen Alvarez‐Lorenzo, Þorsteinn Loftsson, Hákon Hrafn Sigurðsson

2020Nanomaterials40 citationsDOIOpen Access PDF

Abstract

The aim of this study was to design and evaluate novel cyclodextrin (CD)-based aggregate formulations to efficiently deliver nepafenac topically to the eye structure, to treat inflammation and increase nepafenac levels in the posterior segment, thus attenuating the response of inflammatory mediators. The physicochemical properties of nine aggregate formulations containing nepafenac/γ-CD/hydroxypropyl-β (HPβ)-CD complexes as well as their rheological properties, mucoadhesion, ocular irritancy, corneal and scleral permeability, and anti-inflammatory activity were investigated in detail. The results were compared with a commercially available nepafenac suspension, Nevanac® 3 mg/mL. All formulations showed microparticles, neutral pH, and negative zeta potential (–6 to –27 mV). They were non-irritating and nontoxic and showed high permeation through bovine sclera. Formulations containing carboxymethyl cellulose (CMC) showed greater anti-inflammatory activity, even higher than the commercial formulation, Nevanac® 0.3%. The optimized formulations represent an opportunity for topical instillation of drugs to the posterior segment of the eye.

Topics & Concepts

PermeationScleraCarboxymethyl celluloseIn vivoChemistryChromatographyZeta potentialEthyl cellulosePosterior segment of eyeballCyclodextrinEx vivoMucoadhesionPharmacologyIn vitroOphthalmologyMaterials scienceMedicineDrug carrierDrug deliveryPolymerMembraneNanotechnologyOrganic chemistryBiochemistrySodiumBiotechnologyBiologyNanoparticleAdvanced Drug Delivery SystemsOcular Surface and Contact LensAdvancements in Transdermal Drug Delivery
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