Needles almost too small to be seen with the unaided eye could be the basis for new treatment options for two of the world’s leading eye diseases: glaucoma and corneal neovascularization.
The microneedles, ranging in length from 400 to 700 microns, could provide a new way to deliver drugs to specific areas within the eye relevant to these diseases. By targeting the drugs only to specific parts of the eye instead of the entire eye, researchers hope to increase effectiveness, limit side effects and reduce the amount of drug needed.
For glaucoma, which affects about 2.2 million people in the United States and is the second-leading cause of blindness worldwide, the goal is to develop time-release drugs that could replace daily administration of eye drops. A painless microneedle injection made once every three to six months – potentially during regular office visits – could improve treatment outcomes by providing consistent dosages and overcoming patient compliance issues.
In the second disease, corneal neovascularization, corneal injury results in the growth of unwanted blood vessels that impair vision. To treat it, the researchers developed solid microneedles for delivering a dry drug compound that stops the vessel growth.
“The power of microneedles for treating eye conditions is the ability to target delivery of the drug within the eye,” said Mark Prausnitz, a Regents’ professor in the School of Chemical & Biomolecular Engineering at the Georgia Institute of Technology. “We are developing different microneedle-based systems that can put the drug precisely into the part of the eye where it’s needed. In many cases, we hope to couple that delivery with a controlled-release formulation that would allow one application to treat a condition for weeks or months.”
Media Contact
Story by John Toon. Courtesy of Research News at Georgia Institute of Technology.
Latest BME News
Georgia Tech grad reflects on his rookie season as a biomechanics engineer with the New York Mets
First-year students learned about the resources and support they could access during their college journey in BME.
BME assistant professor using Sloan Scholars Mentoring Network seed grant to support her lab's work
Coulter Department honors Jaydev Desai, Melissa Kemp, Gabe Kwong, and Johnna Temenoff
Biomedical engineer will present groundbreaking mapping tool aimed at drug resistant cancers at BMES Annual Meeting
BME researcher Yue Chen using NSF CAREER Award to develop MRI-safe surgical robot
Emory-Georgia Tech team develop new tools to address parasitic infection that affects 250 million people in 78 countries
When we lose our vision, does our hearing get stronger? Ming-fai Fong is trying to find out, while enhancing lives through community-driven research