自愈水凝胶
药物输送
生物相容性
纳米技术
医学
药品
生物医学工程
生物相容性材料
患者依从性
眼球后段
组织工程
输送系统
材料科学
靶向给药
控制释放
临床前试验
角膜
作者
Farzaneh Sabbagh,Seyed Shahrooz Zargarian,Alicja Kosik‐Kozioł,Paweł Nakielski,Filippo Pierini
摘要
, chemical crosslinking, 3D printing), and their uses in new and commercial products. Significant advances highlight the controlled release, mucoadhesion, and biocompatibility of hydrogels, which allow prolonged drug delivery as demonstrated by commercial products such as DEXTENZA® and ReSure® Sealant for corneal sealing and post-operative inflammation control. New technologies provide greater accuracy and less invasiveness. Examples include bioengineered hydrogels for retinal regeneration, systems integrated with nanotechnology, and stimuli-responsive hydrogels (such as pH-sensitive chitosan for glaucoma). By addressing mechanical stability and regulatory criteria, characterization techniques guarantee the suitability of the hydrogel for ocular applications. Hydrogels exhibit considerable promise for personal and least invasive treatments, despite challenges like scalability and high production costs. With implications for improving clinical outcomes and patient compliance through novel biomaterials, this review highlights the important role of hydrogels in ocular drug delivery and offers an outline for future advancements in the treatment of diseases like glaucoma, age-related macular degeneration, and dry eye syndrome.
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