News Release

Medicated drops may help close macular holes, helping some patients avoid surgery

University of Chicago Medicine researchers find medicated drops may close small macular holes by decreasing inflammation and increasing fluid absorption in the retina.

Peer-Reviewed Publication

University of Chicago Medical Center

Medicated drops may help close small macular holes over a two- to eight-week period, allowing some people to avoid surgery to fix the vision problem, a new study suggests.

The findings, based on a retrospective multicenter case series published Dec. 15, 2020, in Ophthalmology Retina, could lead to a better understanding of which patients may benefit from the treatment, as well as the timeline of the treatment's effectiveness.

"For certain patients, medicated drops may heal their macular hole by decreasing inflammation and increasing fluid absorption in the retina," said ophthalmologist and retinal surgeon Dimitra Skondra, MD, PhD, senior author of the study. Skondra is an associate professor of ophthalmology and visual science and director of the J. Terry Ernest Ocular Imaging Center at the University of Chicago Medicine.

Macular holes are age-related and usually affect people over 60 years old. An area located in the retina on the inside back of the eyeball, the macula allows us to have sharp, central vision. Depending on the size and location of the break in a person's macula, the holes can cause distorted, blurred or a dark patch in central vision.

Between 4% and 11.5% of macular holes end up closing on their own, but for those that do not, the traditional treatment is a vitrectomy. This surgical procedure involves removing most of the gel-like fluid that fills the space between the retina and lens, repairing the macula at the back of the eye, then adding a gas bubble to the eye cavity. Much like a temporary bandage, the gas bubble helps the edges of the hole come together and eventually close.

Unfortunately, patients must remain face down for several days and nights after the procedure while the gas bubble floats to the back of their eye. Even then, a small percentage of holes do not close; others may reopen later or the patient may develop complications, such as a cataract, retinal detachment, scar tissue or peripheral vision loss.

All 14 of the study's patients had some swelling around the hole, which is common, and half had previously undergone retinal surgery.

As an alternative to surgery, the researchers prescribed a daily three-drug regimen -- medications that are FDA-approved and routinely used for other eye conditions -- consisting of prednisolone or difluprenate, ketorolac or bromfenac and brinzolamide or dorzolamide. The goal was to dehydrate patients' retinas, decrease the swelling and allow the edges of the macular holes to creep back together.

Using this topical medicated treatment, twelve of the fourteen patients had holes that closed within two to eight weeks - two to four times faster than spontaneous closure rates of macular holes. The two patients that did not have closure within this time period had multiple missed follow-up appointments. The treatment was most effective for patients whose macular holes were less than 200 micrometers in diameter. The length of time the drops were administered then tapered off, ranged from 3 1/2 to 20 months.

"Adding a nonsurgical approach to even a small subset of patients is refreshing not only to retina surgeons, but especially for patients with small macular holes," said Ronald Gentile, MD, a professor of ophthalmology at the Icahn School of Medicine at Mount Sinai in New York and contributing author of the study.

The researchers now hope to conduct a prospective randomized trial. "In the future, we want to definitively determine the benefits of a drop regimen for treating macular holes compared to the natural history of macular holes closing on their own without any drop treatment," said Skondra.


The study, "Macular Hole Closure with Medical Treatment," was written by Dimitra Skondra, Jared Sokol, Sidney Schechet, Rahul Komati, and Asim Farooq of the University of Chicago; Ronald Gentile and Richard Kaplan of New York Eye and Ear Infirmary of Mount Sinai; Dean Eliott and Demetrios Vavvas of Harvard Medical School; Shaun Ittiara of Mercy Hospital and Medical Center; Veeral Sheth of University Retina; and Mathew MacCumber and Rhona Ke of Rush University.

About the University of Chicago Medicine & Biological Sciences

The University of Chicago Medicine, with a history dating back to 1927, is one of the nation's leading academic health systems. It unites the missions of the University of Chicago Medical Center, Pritzker School of Medicine and the Biological Sciences Division. Twelve Nobel Prize winners in physiology or medicine have been affiliated with the University of Chicago Medicine. Its main Hyde Park campus is home to the Center for Care and Discovery, Bernard Mitchell Hospital, Comer Children's Hospital and the Duchossois Center for Advanced Medicine. It also has ambulatory facilities in Orland Park, South Loop and River East as well as affiliations and partnerships that create a regional network of care. UChicago Medicine offers a full range of specialty-care services for adults and children through more than 40 institutes and centers including an NCI-designated Comprehensive Cancer Center. Together with Harvey-based Ingalls Memorial, UChicago Medicine has 1,296 licensed beds, nearly 1,300 attending physicians, over 2,800 nurses and about 970 residents and fellows.

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