Tethered drug release from model contact lenses

Abstract Drug delivery to the eye remains a challenge due to low compliance and high amounts of drug loss resulting from anatomical barriers. Contact lens‐based delivery systems offer many advantages since their increased corneal residence time can increase drug bioavailability. A releasable, sustained delivery system from a contact lens has been evaluated in the current work. Using a labile lactide spacer, comprised of poly(ethylene glycol) methacrylate, varying numbers of lactide units and succinic anhydride, a model drug, R‐roscovitine, was covalently incorporated into model silicone lenses (consisting of 80 mol% N , N ‐dimethylacrylamide and 20 mol% of a modified silicone). This enabled a greater amount of the drug to remain in the material following extraction with isopropyl alcohol, a common purification procedure used in lens manufacturing. The incorporation of the tether and drug did not substantially alter the bulk properties of the materials, with their water content remaining between 32% and 36% and their transmittance remaining at over 90% at 600 nm. Drug release from these materials exceeded 2 weeks, with the longer lactide tethers showing greater release as expected. This demonstrates that these covalently modified materials have the potential to be used to deliver drugs in a sustained manner. © 2022 Society of Industrial Chemistry.