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- Title
Exploring Hydrogel Nanoparticle Systems for Enhanced Ocular Drug Delivery.
- Authors
Arabpour, Zohreh; Salehi, Majid; An, Seungwon; Moghtader, Amirhossein; Anwar, Khandaker N; Baharnoori, Seyed Mahbod; Shah, Rohan Jaimin; Abedi, Farshad; Djalilian, Ali R
- Abstract
Drug delivery to the ocular system is affected by anatomical factors like the corneal epithelium, blinking reflex, aqueous blood barrier, and retinal blood barrier, which lead to quick removal from the site and inefficient drug delivery. Developing a drug delivery mechanism that targets specific eye tissue is a major hurdle for researchers. Our study examines the challenges of drug absorption in these pathways. Hydrogels have been researched as a suitable delivery method to overcome some obstacles. These are developed alone or in conjunction with other technologies, such as nanoparticles. Many polymer hydrogel nanoparticle systems utilizing both natural and synthetic polymers have been created and investigated; each has pros and cons. The complex release mechanism of encapsulated agents from hydrogel nanoparticles depends on three key factors: hydrogel matrix swelling, drug-matrix chemical interactions, and drug diffusion. This mechanism exists regardless of the type of polymer. This study provides an overview of the classification of hydrogels, release mechanisms, and the role of controlled release systems in pharmaceutical applications. Additionally, it highlights the integration of nanotechnology in ocular disease therapy, focusing on different types of nanoparticles, including nanosuspensions, nanoemulsions, and pharmaceutical nanoparticles. Finally, the review discusses current commercial formulations for ocular drug delivery and recent advancements in non-invasive techniques. The objective is to present a comprehensive overview of the possibilities for enhancing ocular medication delivery through hydrogel nanoparticle systems.
- Publication
Gels (Basel, Switzerland), 2024, Vol 10, Issue 9
- ISSN
2310-2861
- Publication type
Journal Article
- DOI
10.3390/gels10090589