By LAURIE TARKAN
THE HYPOTHESIS
The aging eye filters out blue light, affecting circadian rhythm and health in older adults.
THE INVESTIGATORS
Dr. Martin Mainster and Dr. Patricia Turner, University of Kansas School of Medicine.
For decades, scientists have looked for explanations as to why certain conditions occur with age, among them memory loss, slower reaction time, insomnia and even depression. They have scrupulously investigated such suspects as high cholesterol, obesity, heart disease and an inactive lifestyle.
Now a fascinating body of research supports a largely unrecognized culprit: the aging of the eye.
The gradual yellowing of the lens and the narrowing of the pupil that
occur with age disturb the body’s circadian rhythm, contributing to a
range of health problems, these studies suggest. As the eyes age, less
and less sunlight gets through the lens to reach key cells in the retina
that regulate the body’s circadian rhythm, its internal clock.
“We believe the effect is huge and that it’s just beginning to be
recognized as a problem,” said Dr. Patricia Turner, an ophthalmologist
in Leawood, Kan., who with her husband, Dr. Martin Mainster, a professor
of ophthalmology at the University of Kansas Medical School, has
written extensively about the effects of the aging eye on health.
Circadian rhythms are the cyclical hormonal and physiological processes
that rally the body in the morning to tackle the day’s demands and slow
it down at night, allowing the body to rest and repair. This internal
clock relies on light to function properly, and studies have found that
people whose circadian rhythms are out of sync, like shift workers, are
at greater risk for a number of ailments, including insomnia, heart
disease and cancer.
“Evolution has built this beautiful timekeeping mechanism, but the clock
is not absolutely perfect and needs to be nudged every day,” said Dr.
David Berson, whose lab at Brown University studies how the eye
communicates with the brain.
So-called photoreceptive cells in the retina absorb sunlight and
transmit messages to a part of the brain called the suprachiasmatic
nucleus (S.C.N.), which governs the internal clock. The S.C.N. adjusts
the body to the environment by initiating the release of the hormone
melatonin in the evening and cortisol in the morning.
Melatonin is thought to have many health-promoting functions, and
studies have shown that people with low melatonin secretion, a marker
for a dysfunctional S.C.N., have a higher incidence of many illnesses,
including cancer, diabetes and heart disease.
It was not until 2002 that the eye’s role in synchronizing the circadian
rhythm became clear. It was always believed that the well-known rods
and cones, which provide conscious vision, were the eye’s only
photoreceptors. But Dr. Berson’s team discovered that cells in the inner
retina, called retinal ganglion cells, also had photoreceptors and that
these cells communicated more directly with the brain.
These vital cells, it turns out, are especially responsive to the blue
part of the light spectrum. Among other implications, that discovery has
raised questions about our exposure to energy-efficient light bulbs and electronic gadgets, which largely emit blue light.
But blue light also is the part of the spectrum filtered by the eye’s
aging lens. In a study published in The British Journal of
Ophthalmology, Dr. Mainster and Dr. Turner estimated that by age 45, the
photoreceptors of the average adult receive just 50 percent of the light needed to fully stimulate the circadian system. By age 55, it dips to 37 percent, and by age 75, to a mere 17 percent.
“Anything that affects the intensity of light or the wavelength can have
important consequences for the synchronization of the circadian rhythm,
and that can have effects on all types of physiological processes,” Dr.
Berson said.
Several studies, most in European countries, have shown that the effects
are not just theoretical. One study, published in the journal
Experimental Gerontology, compared how quickly exposure to bright light
suppresses melatonin in women in their 20s versus in women in their 50s.
The amount of blue light that significantly suppressed melatonin in the
younger women had absolutely no effect on melatonin in the older women. “What that shows us is that the same amount of light that makes a young person sit up in the morning, feel awake, have better memory retention and be in a better mood has no effect on older people,” Dr. Turner said.
Another study, published in The Journal of Biological Rhythms, found that after exposure to blue light, younger subjects had increased alertness, decreased sleepiness and improved mood, whereas older subjects felt none of these effects.
Researchers in Sweden studied patients who had cataract surgery to remove their clouded lenses and implant clear intraocular lenses. They found that the incidence of insomnia and daytime sleepiness was significantly reduced. Another study found improved reaction time after cataract surgery.
“We believe that it will eventually be shown that cataract surgery
results in higher levels of melatonin, and those people will be less
likely to have health problems like cancer and heart disease,” Dr.
Turner said.
That is why Dr. Mainster and Dr. Turner question a practice common in
cataract surgery. About one-third of the intraocular lenses implanted
worldwide are blue-blocking lenses, intended to reduce the risk of macular degeneration by limiting exposure to potentially damaging light.
But there is no good evidence showing that people who have cataract
surgery are at greater risk of macular degeneration. And evidence of the
body’s need for blue light is increasing, some experts say.
“You can always wear sunglasses if you’re in a brilliant environment
that’s uncomfortable. You can remove those sunglasses for optimal
circadian function, but you can’t take out the filters if they’re
permanently implanted in your eyes,” Dr. Mainster said.
Because of these light-filtering changes, Dr. Mainster and Dr. Turner
believe that with age, people should make an effort to expose themselves
to bright sunlight or bright indoor lighting when they cannot get
outdoors. Older adults are at particular risk, because they spend more
time indoors.
“In modern society, most of the time we live in a controlled environment
under artificial lights, which are 1,000 to 10,000 times dimmer than
sunlight and the wrong part of the spectrum,” Dr. Turner said.
In their own offices, Dr. Mainster and Dr. Turner have installed
skylights and extra fluorescent lights to help offset the aging of their
own eyes.
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