This study used computational fluid dynamics (CFD) simulations to investigate strategies for improving the efficacy of drug-releasing ocular implants for glaucoma treatment. The key findings are:
The balance between convection and diffusion flux in the aqueous humor flow hinders achieving a homogeneous drug distribution in the trabecular meshwork (TM) when using a gravity-driven implant placement. Reducing the drug molecule size does not sufficiently improve the drug distribution.
Varying the size of the implant can help counter the localized drug delivery. Matching the implant diameter to the patient's TM size can result in a more even drug distribution.
Placing the implant between the iris and lens, instead of the iridocorneal angle, can leverage the natural mixing effect of the iris to achieve a more homogeneous drug concentration at the TM entry.
The study demonstrates how CFD simulations can provide valuable insights to guide the design and placement of ocular drug-releasing implants for optimal glaucoma treatment efficacy, overcoming limitations of experimental studies due to the small scale of the eye's anatomy.
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arxiv.org
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