Participants took nearly 10 minutes longer to fall asleep and had a significantly lower amount of REM -- rapid eye movement -- sleep after reading from a light-emitting e-reader than they did after reading from a print book.
UNIVERSITY PARK, Pa. -- You may think your e-reader is helping you get to sleep at night, but it might actually be harming your quality of sleep, according to researchers.
Exposure to light during evening and early nighttime hours suppresses release of the sleep-facilitating hormone melatonin and shifts the circadian clock, making it harder to fall asleep at bedtime.
"Electronic devices emit light that is short-wavelength-enriched light, which has a higher concentration of blue light -- with a peak around 450 nm -- than natural light," said Anne-Marie Chang , assistant professor of biobehavioral health , Penn State. "This is different from natural light in composition, having a greater impact on sleep and circadian rhythms."
Chang and colleagues observed 12 adults for two weeks, comparing when the participants read from an iPad, serving as an e-reader, before bedtime to when they read from a printed book before bedtime. The researchers monitored the participants’ melatonin levels, sleep and next-morning alertness, as well as other sleep-related measures.
Participants took nearly 10 minutes longer to fall asleep and had a significantly lower amount of REM -- rapid eye movement -- sleep after reading from a light-emitting e-reader than they did after reading from a print book, the researchers report in today’s (Dec. 22) issue of the Proceedings of the National Academy of Science.
"Our most surprising finding was that individuals using the e-reader would be more tired and take longer to become alert the next morning," said Chang. "This has real consequences for daytime functioning, and these effects might be worse in the real world as opposed to the controlled environment we used."
The researchers measured the amount of brightness coming from several devices, including an iPad, iPhone, Kindle, Kindle Fire and Nook Color. The Kindle e-reader does not emit light, while the iPad, Kindle Fire and Nook Color emit similar amounts of light. However, the iPad is the brightest of the devices measured.
The study participants were admitted to Brigham and Women’s Hospital in Boston for the duration of the 14-day study, in order for the researchers to control for many factors. Each participant read from an iPad before bedtime for five nights in a row, and did the same with a printed book. It was randomly determined whether a participant read from a print book or an iPad first -- the results showed that the order didn’t make a difference. Participants were able to choose their own reading material, as long as it could be considered "leisure" reading and did not contain any images or puzzles, only text.
The subjects read for four hours before bed, from 6 p.m. to 10 p.m., with time designated for sleep from 10 p.m. to 6 a.m. The researchers collected blood samples from the readers hourly to measure melatonin. Polysomnography -- which records brain waves, heart rate, breathing and eye movements -- was also used to determine how long it took to fall asleep, the amount of time spent asleep and the amount of time spent in each sleep stage. The researchers also used the Karolinska Sleepiness Scale to measure subjective sleepiness.
"We live in a sleep-restricted society, in general," said Chang. "It is important to further study the effects of using light-emitting devices, especially before bed, as they may have longer term health consequences than we previously considered."
Chang was in the division of sleep and circadian disorders, department of medicine, Brigham and Women’s Hospital and the division of sleep medicine, Harvard Medical School at the time the study was conducted. Also working on this research were Daniel Aeschbach, Jeanne F. Duffy and Charles A. Czeisler, all in the division of sleep and circadian disorders, department of medicine, Brigham and Women’s Hospital and the division of sleep medicine, Harvard Medical School. Aeschbach is also affiliated with the Institute of Aerospace Medicine, German Aerospace Center.
The National Institutes of Health and the National Center for Research Resources supported this research.