Hydrogels in Ophthalmology: Novel Strategies for Overcoming Therapeutic Challenges.
Kevin Y WuDania AkbarMichel GiuntaAnanda KalevarSimon D TranPublished in: Materials (Basel, Switzerland) (2023)
The human eye's intricate anatomical and physiological design necessitates tailored approaches for managing ocular diseases. Recent advancements in ophthalmology underscore the potential of hydrogels as a versatile therapeutic tool, owing to their biocompatibility, adaptability, and customizability. This review offers an exploration of hydrogel applications in ophthalmology over the past five years. Emphasis is placed on their role in optimized drug delivery for the posterior segment and advancements in intraocular lens technology. Hydrogels demonstrate the capacity for targeted, controlled, and sustained drug release in the posterior segment of the eye, potentially minimizing invasive interventions and enhancing patient outcomes. Furthermore, in intraocular lens domains, hydrogels showcase potential in post-operative drug delivery, disease sensing, and improved biocompatibility. However, while their promise is immense, most hydrogel-based studies remain preclinical, necessitating rigorous clinical evaluations. Patient-specific factors, potential complications, and the current nascent stage of research should inform their clinical application. In essence, the incorporation of hydrogels into ocular therapeutics represents a seminal convergence of material science and medicine, heralding advancements in patient-centric care within ophthalmology.
Keyphrases
- drug delivery
- drug release
- cancer therapy
- artificial intelligence
- tissue engineering
- hyaluronic acid
- healthcare
- cataract surgery
- endothelial cells
- big data
- human health
- palliative care
- public health
- small molecule
- risk assessment
- machine learning
- quality improvement
- extracellular matrix
- smoking cessation
- pain management
- case control
- pluripotent stem cells