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Receptor-based biomimetic NVP/DMA contact lenses for loading/eluting carbonic anhydrase inhibitors

2011; Elsevier BV; Volume: 383; Issue: 1-2 Linguagem: Inglês

10.1016/j.memsci.2011.08.030

1873-3123

Andreza Maria Ribeiro, Francisco Veiga, Delfim Santos, Juan J. Torres‐Labandeira, Ángel Concheiro, Carmen Alvarez‐Lorenzo,

Nitric Oxide and Endothelin Effects

Biomimetic principles were applied to design N,N-dimethylacrylamide (DMA) and N-vinylpyrrolidone (NVP) hydrogels with enhanced affinity for the antiglaucoma drugs acetazolamide (ACT) and ethoxzolamide (ETOX). These inhibitors of carbonic anhydrase are orally given to decrease intraocular pressure, but their systemic side effects prompt the development of devices for ocular delivery. Receptors for ACT and ETOX were created in the hydrogels by mimicking the active site of the metallo-enzyme, using 1- or 4-vinylimidazole (1VI or 4VI) and N-hydroxyethyl acrylamide (HEAA) as functional monomers. To some hydrogels, zinc salt and ACT (imprinted networks) were incorporated before polymerization for a closer mimicking of the natural receptor. Viscoelasticity, water uptake, light transmissibility, cytocompatibility, zinc content, and drug loading and release were evaluated. 4VI retained the non-polymerizable zinc salt better than 1VI and rendered visible light transparent hydrogels. NVP-co-DMA hydrogels bearing 4VI, HEAA and Zn2+ showed 2-fold increase in drug affinity (estimated as network/water partition coefficient) and more sustained delivery. ACT-imprinted networks achieved the highest loading and controlled ACT release for 9 h. ETOX release was sustained for more than one week. Favorable physicochemical, mechanical and cytocompatibility features suggest that receptor-inspired hydrogels are promising candidates for the development of biomimetic medicated soft contact lenses as well as other delivery systems.