A schematic of the eye's anterior segment, demonstrating the anatomical placement of the microstent. The stent diverts aqueous humor from the anterior chamber to the suprachoroidalspace through the flexible tube, creating a subconjunctival bleb supported by the expanding element. Credit: Yunlan Zhang, Zhong You, Jared Ching.

A team of researchers at the University of Oxford have unveiled a pioneering "microstent" which could revolutionize treatment for glaucoma, a common but debilitating condition. The study has been published in The Innovation.

Glaucoma is a leading cause of vision loss, second only to cataracts. Globally, 7.7 million people were blind or visually impaired due to glaucoma in 2020. The condition can cause irreversible damage to the optic nerve, due to increased pressure within the eyeball. Current treatment options—principally surgery to create openings in the eye or insert tubes to drain fluid—are highly invasive, carry risk of complications, and have limited durability.

"Our deployable microstent represents a significant advancement in glaucoma treatment, " said lead author Dr. Yunlan Zhang (University of Oxford at the time of the study/University of Texas). "Current surgical implants for this type of glaucoma have been shown to have limited long-term effectiveness, being susceptible to failure due to fibrosis (scarring) in the eye."

The new microstent features a unique structural shape that allows it to expand once in the eye. At 200µm, less than a quarter of a millimeter, the stent's tiny diameter enables it to fit within the needle of a standard hypodermic syringe, for minimally-invasive insertion. Once in place and expanded, the microstent spans the fluid-filled space between the white of the eye and the membrane that covers it.

Illustration of the microstent showing the deployment. Credit: Yunlan Zhang, Zhong You, Jared Ching.

Scanning electronic microscopy image of a deployable microstent sample. Credit: Yunlan Zhang, Zhong You, Jared Ching.

By supporting this space, the stent reduces the excessive fluid buildup and resulting intraocular pressure in the eye which is responsible for the most common type of glaucoma, primary open-angle glaucoma. Initial trials carried out in rabbits found that the microstents lowered eye pressure in less than a month with minimal inflammation and scarring. Furthermore, the microstent achieved a greater reduction of eye pressure than a standard tubular implant.

Senior co-author, Professor Zhong You (Department of Engineering Science, University of Oxford) said, "Our microstent is made from a durable and super-flexible nickel-titanium alloy called nitinol, renowned for its proven long-term safety for ocular use. Its unique material and structural properties help prevent subsequent movement, improve durability, and ensure long-term efficacy."

The research team used advanced modeling techniques to guide the microstent's design and ensure compatibility with the anatomy of the eye. The device's superelastic properties enable it to accommodate how the eye changes and stretches over time without permanent deformation, enhancing its durability and functionality.

"This development has the potential to transform the landscape of glaucoma therapy, " noted senior co-author Dr. Jared Ching (Department of Engineering Science, University of Oxford). "By offering an enhanced solution in the minimally invasive glaucoma surgery field that combines mechanical innovation with biocompatibility, we hope to improve patient outcomes and quality of life."

Over half a million people in the UK have glaucoma—2% of everyone over the age of 40— and it is one of the most common causes of blindness worldwide. The introduction of this microstent could mark a pivotal step in enhancing treatment efficacy and accessibility.

More information: Yunlan Zhang et al, A novel deployable microstent for the treatment of glaucoma, The Innovation (2025). DOI: 10.1016/j.xinn.2025.100935