Conventional ophthalmic dosage forms such as eye drops pose a significant challenge because physiological barriers and clearance mechanisms limit ocular bioavailability. Hydrogels are promising therapeutic materials for ocular drug delivery because of their high biocompatibility and their ability to hold and release therapeutic agents. Even though they are generally associated with the delivery of hydrophilic drugs, several approaches have been developed to integrate hydrophobic ophthalmic drugs into hydrogels. Because of the limitations associated with the traditional topical eye drop delivery of hydrophobic drugs, hydrogel-based systems represent a viable alternative for controlled ocular drug delivery. This review presents an overview on the ophthalmic applications of hydrogels for the delivery of hydrophobic drugs, with special focus on diseases occurring in the anterior segment of the eye. We summarize the key hydrogels for incorporation and delivery of hydrophobic drugs, including soft contact lenses (SCLs), stimuli-responsive hydrogels, cyclodextrin-based polymeric hydrogels, and nanoparticle-loaded hydrogels. The strategies of integrating hydrophobic drugs into hydrogels as discussed in this review provide significant potential in ocular therapeutics.
Keywords: Biomaterials; Controlled release; Hydrogels; Hydrophobic drugs; Ocular drug delivery; Soft contact lenses.
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