AI Article Synopsis
- - Lipid DNA nanoparticles (NPs) can effectively attach to the ocular surface and can carry drugs like travoprost by hybridizing with specific DNA structures, allowing for non-covalent binding without altering the drug.
- - The travoprost-loaded nanoparticles (Trav-NPs) maintain their presence on the eye for up to 60 minutes after application, indicating a longer-lasting adherence compared to standard eye drops.
- - Research shows that Trav-NPs deliver over twice the amount of travoprost compared to the drug alone, highlighting their potential as an innovative drug delivery method in treating glaucoma.
Article Abstract
Lipid DNA nanoparticles (NPs) exhibit an intrinsic affinity to the ocular surface and can be loaded by hybridization with fluorophore-DNA conjugates or with the anti-glaucoma drug travoprost by hybridizing an aptamer that binds the medication. In the travoprost-loaded NPs (Trav-NPs), the drug is bound by specific, non-covalent interactions, not requiring any chemical modification of the active pharmaceutical ingredient. Fluorescently labeled Trav-NPs show a long-lasting adherence to the eye, up to sixty minutes after eye drop instillation. Biosafety of the Trav-NPs was proved and in vivo. Ex vivo and in vivo quantification of travoprost via LC-MS revealed that Trav-NPs deliver at least twice the amount of the drug at every time-point investigated compared to the pristine drug. The data successfully show the applicability of a DNA-based drug delivery system in the field of ophthalmology for the treatment of a major retinal eye disease, i.e. glaucoma.
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| http://dx.doi.org/10.1016/j.nano.2020.102260 | DOI Listing |
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