Reprint

Nanoparticles in Ocular Drug Delivery Systems

Edited by
June 2023
266 pages
  • ISBN978-3-0365-8003-6 (Hardback)
  • ISBN978-3-0365-8002-9 (PDF)

This is a Reprint of the Special Issue Nanoparticles in Ocular Drug Delivery Systems that was published in

Biology & Life Sciences
Chemistry & Materials Science
Medicine & Pharmacology
Summary

Conventional ophthalmic formulations lack prolonged drug release effects and mucoadhesive properties, decreasing their residence time in the precorneal area and, therefore, in drug penetration across ocular tissues, presenting a low bioavailability with a consequent reduction in the therapeutic efficacy. These limitations are related to the physiological mechanisms of the eye, for example, the diluting effect of formulations exerted by the tear fluid, constant turnover of the tear fluid, blink reflex, limited capacity of the conjunctival sac, and drainage of formulations applied by gravity.To increase the residence time of formulations on the surface of ocular tissues and increase their ability to penetrate these tissues, different strategies can be used, namely, the use of viscosifying agents, mucoadhesive polymers, stimuli-responsive polymers, microparticles, and colloidal carriers (e.g., micelles, liposomes, nanosuspensions, nanoemulsions, polymeric, and lipid nanoparticles). This Special Issue combines the latest research and review works reporting the use of nanoparticles in ophthalmic formulations to increase their bioavailability and improve the therapeutic efficacy of ophthalmic formulations.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
nanotechnology; fluorescence; ocular delivery; probes; diagnostics; PKs; cyclodextrin; ophthalmic; fosinopril sodium; niosomes; encapsulation; stabilization; flash nanoprecipitation; conjunctivitis; nanoparticles; zein; hyaluronic acid; ciprofloxacin; topical ocular drug delivery; transferosomes; linoleic acid; cyclosporine A; nanoparticle drug-delivery systems; retinal drug delivery; inner limiting membrane; photodisruption; vapor nanobubbles; indocyanine green; nanotechnology; pulsed laser; tolnaftate; spanlastics; cosolvent; fungal keratitis; kill kinetics; susceptibility; cannabidiol; nanoemulsion; carbopol® 940 NF; autoclave; IOP; rabbits; corneal tissue engineering; epithelium; stroma; endothelium; 3D bioprinting; ocular diseases; sustained ocular delivery; therapeutic proteins; barriers of corneal tissues; nanocarriers; microcarriers; cell-penetrating peptides; hydrogels; ocular drug delivery; nebivolol; open-angle glaucoma; in situ gel; Box Behnken design; Poloxamer-407; kappa-carrageenan; glaucoma; chitosan; nanoparticles; mucoadhesion; ocular bioavailability; therapeutic efficacy; triamcinolone acetonide; nanocrystals; ocular inflammation; corticosteroids; media milling; n/a

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