Sustained Release Biodegradable Microneedles of Difluprednate for Delivery to Posterior Eye.

Purpose: Difluprednate ophthalmic emulsion (Durezol®) is currently used for the treatment of anterior uveitis; however, recent studies have shown that difluprednate can treat posterior eye conditions. Topical formulations limit the amount of drug capable of permeating to the posterior segment due to permeation barriers, lacrimation, and lymphatic clearance. Methods: Resomer®-based microneedle patches were fabricated for difluprednate using poly(acrylic acid) (PAA) for the rapidly dissolvable backing. The patches were analyzed for microneedle uniformity and sharpness using scanning electron microscopy, and the penetration depth was analyzed by confocal microscopy. Failure force necessary to break the microneedles and force needed to penetrate the sclera were analyzed by the texture analyzer. Difluprednate release and trans-scleral permeation studies on microneedles were performed using Franz diffusion cells. Results: The microneedles were uniform, sharp, and penetrated to 500 µm depth on sclera. The microneedles have a failure force proportional to the molecular weight (MW) of the polymer used. There was no correlation between failure force and the penetration force of the microneedles. The PAA backing dissolved within 30-40 min, while release studies showed a matrix diffusion-controlled release over the 7-day study. The amount of drug permeation and retention in the sclera were decreased with an increase in the MW of the Resomer and failure force of each array. Conclusions: Resomer-based microneedles have a potential application for the sustained release of difluprednate for posterior segment conditions.

Improved Ocular Delivery of Nepafenac by Cyclodextrin Complexation.

Nepafenac is a nonsteroidal anti-inflammatory drug (NSAID), currently only available as 0.1% ophthalmic suspension (Nevanac®). This study utilized hydroxypropyl-ß-cyclodextrin (HPBCD) to increase the water solubility and trans-corneal permeation of nepafenac. The nepafenac-HPBCD complexation in the liquid and solid states were confirmed by phase solubility, differential scanning calorimetry (DSC), X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), and nuclear magnetic resonance spectroscopy (NMR) analyses. Nepafenac 0.1% ophthalmic solution was formulated using HPBCD (same pH and osmolality as that of Nevanac®) and pig eye trans-corneal permeation was studied versus Nevanac®. Furthermore, nepafenac content in cornea, sclera, iris, lens, aqueous humor, choroid, ciliary body, retina, and vitreous humor was studied in a continuous isolated pig eye perfusion model in comparison to the suspension and Nevanac®. Permeation studies using porcine corneas revealed that the solution formulation had a permeation rate 18 times higher than Nevanac®. Furthermore, the solution had 11 times higher corneal retention than Nevanac®. Drug distribution studies using porcine eyes revealed that the solution formulation enables detectable levels in various ocular tissues while the drug was undetectable by Nevanac®. The ocular solution formulation had a significantly higher drug concentration in the cornea compared to the suspension or Nevanac®.