Easy on the eyes: How eyelash length keeps your eyes healthy
Eyelashes of 22 mammals, including goats (pictured) and humans are the same: one-third the length as the width of the eye.
It started with a trip to the basement of the American Museum of Natural History in New York to inspect preserved animal hides. Later, Georgia Institute of Technology researchers built a wind tunnel about 2 feet tall, complete with a makeshift eye. By putting both steps together, the team discovered that 22 species of mammals – from humans, to hedgehogs, to giraffes – are the same: their eyelash length is one-third the width of their eye. Anything shorter or longer, including the fake eyelashes that are popular in Hollywood and make-up aisles, increases airflow around the eye and leads to more dust hitting the surface.
“Eyelashes form a barrier to control airflow and the rate of evaporation on the surface of the cornea,” said Guillermo Amador, a Georgia Tech Ph.D. candidate in the George W. Woodruff School of Mechanical Engineering who authored the study. “When eyelashes are shorter than the one-third ratio, they have only a slight effect on the flow. Their effect is more pronounced as they lengthen up until one-third. After that, they start funneling air and dust particles into the eye.”
The study, “Eyelashes divert airflow to protect the eye,” is currently published in the Journal of the Royal Society Interface.
Amador and the research team, which is led by mechanical engineering Associate Professor David Hu, sent a student to the museum in 2012 to measure eyes and eyelashes of various animals. Aside from an elephant, which has extremely long eyelashes, every species studied had evolved to the same ratio of lash length to eye width.
The team then built the wind tunnel to re-create air flows on a mimic of an adult, human eye. A 4-millimeter deep, 20-millimeter diameter aluminum dish served as the cornea. It sat on top of an acrylic plate, which imitated the rest of the face. Mesh surrounded the dish to replicate the eyelashes.
They discovered the ideal ratio while varying the mesh length during evaporation and particle deposition studies.
“As short lashes grew longer, they reduced air flow, creating a layer of slow-moving air above the cornea,” said Hu, who is also a faculty member in the School of Biology. “This kept the eye moist for a longer time and kept particles away. The majority of air essentially hit the eyelashes and rolled away from the eye.”
The opposite process occurred with longer eyelashes. The lashes extended further into the airflow and created a cylinder. The air and its molecules channeled toward the eye and led to faster evaporation.
“This is why long, elegant, fake eyelashes aren’t ideal,” said Amador. “They may look good, but they’re not the best thing for the health of your eyes.”
There are exceptions, though. The research team notes that people who can’t grow eyelashes could wear fake ones, if they’re the correct length, for extra protection and to reduce dry eye.
“Even if they’re not the correct length, more eyelashes are always better than less,” said Alexander Alexeev, an associate professor in the School of Mechanical Engineering. “If fake eyelashes are dense enough, they may give the same overall effect in protecting the eye even if they are longer than one-third.”
They team also says the findings could be used to create eyelash-inspired filaments to protect solar panels, photographic sensors or autonomous robots in dusty environments.
This work was supported by the National Science Foundation award numbers PHY-1255127 (Career Award) and CBET-1256403. Any opinions expressed in this article are those of the authors and do not necessarily reflect the official views of the sponsoring organizations.
Eyelashes of a sheep.
Humans and 21 other species of mammals, including giraffes, have the same eyelash length - one-third as wide as their eye.
David Hu is a professor in the George W. Woodruff School of Mechanical Engineering and the School of Biological Sciences.
Guillermo Amador is a Ph.D. candidate in the George W. Woodruff School of Mechanical Engineering.
Alexander Alexeev is an associate professor in the George W. Woodruff School of Mechanical Engineering.