For the first time ever, researchers investigate — in cellular detail — the damage that high levels of Viagra can do to the retina. Taking too much might threaten color vision.
There are few drugs as well-known as sildenafil citrate, commonly sold under the brand name Viagra.
Scientists initially trialed the drug as a potential treatment for angina and other cardiovascular problems.
Though it had little effect on angina, they noted that it induced significant penile erections. So, the most successful erectile dysfunction drug was born.
Viagra is pharmaceutical giant — Pfizer’s best selling product, generating the company more than $1 billion in revenue each year.
The drug has, no doubt, improved the lives of many of its users; but, according to a new study, it may have a negative impact on vision if used incorrectly.
Researchers from the Icahn School of Medicine at Mount Sinai in New York City, NY, have recently published a case study in the journal Retinal Cases and Brief Reports. They conclude that using higher doses of Viagra could eventually lead to significant long-term vision damage.
Lead investigator Dr. Richard Rosen claims, “People live by the philosophy that if a little bit is good, a lot is better. This study shows how dangerous a large dose of a commonly used medication can be.” In particular, the researchers showed that the drug might impact color vision most heavily.
“People who depend on colored vision for their livelihood need to realize there could be a long-lasting impact of overindulging on this drug.”
Dr. Richard Rosen
The researchers made their conclusions based on a study on a 31-year-old male “who arrived at an urgent care clinic complaining of red-tinted vision in both eyes” that had not improved for 2 days.
His vision changes had started soon after taking sildenafil citrate, which he had purchased from the Internet. The patient had taken well over the recommended 50-milligram dose.
Although the side effects of sildenafil citrate can include vision disturbances, they do not persist for longer than 1 day. However, despite various treatments, his vision did not return to normal after 1 year.
Cutting-edge imaging techniques
In order to investigate the man and uncover the details of his vision changes, the researchers used cutting-edge techniques including adaptive optics (AO) and optical coherence tomography (OCT).
AO allows clinicians to study the microscopic structures of the eye in living tissue in real-time. It makes it possible to view the individual rods and cones of the retina. AO has already led to significant improvements in our understanding of how the retina functions.