February 16, 2010
Mariana Figueiro, Ph.D., assistant professor and program director at Rensselaer’s Lighting Research Center helps middle school student Carolyn Cimo test a pair of orange goggles and a Daysimeter™ headset that were used in the first field study to show lack of exposure to morning light delays sleep in teens.
First Field Study Shows Lack of Exposure to Morning Light Delays Sleep in Teens
The first field study on the impact of light on teenagers’ sleeping habits finds that insufficient daily morning light exposure contributes to teenagers not getting enough sleep.
“As teenagers spend more time indoors, they miss out on essential morning light needed to stimulate the body’s 24-hour biological system, which regulates the sleep/wake cycle,” reports Mariana Figueiro, Ph.D., Assistant Professor and Program Director at Rensselaer Polytechnic Institute’s Lighting Research Center (LRC) and lead researcher on the new study.
“These morning-light-deprived teenagers are going to bed later, getting less sleep and possibly under-performing on standardized tests. We are starting to call this the teenage night owl syndrome.”
In the study just published in Neuroendocrinology Letters, Dr. Figueiro and LRC Director Dr. Mark Rea found that eleven 8th grade students who wore special glasses to prevent short-wavelength (blue) morning light from reaching their eyes experienced a 30-minute delay in sleep onset by the end of the 5-day study.
“If you remove blue light in the morning, it delays the onset of melatonin, the hormone that indicates to the body when it’s nighttime,” explains Dr. Figueiro. “Our study shows melatonin onset was delayed by about 6 minutes each day the teens were restricted from blue light. Sleep onset typically occurs about 2 hours after melatonin onset."
Disrupting Biological Rhythms
The problem is that today’s middle and high schools have rigid
schedules requiring teenagers to be in school very early in the
morning. These students are likely to miss the morning light
because they are often traveling to and arriving at school
before the sun is up or as it’s just rising. “This disrupts the
connection between daily biological rhythms, called circadian
rhythms, and the earth’s natural 24-hour light/dark cycle,”
explains Dr. Figueiro.
In addition, the schools are not likely providing adequate electric light or daylight to stimulate this biological or circadian system, which regulates body temperature, alertness, appetite, hormones and sleep patterns. Our biological system responds to light much differently than our visual system. It is much more sensitive to blue light. Therefore, having enough light in the classroom to read and study does not guarantee that there is sufficient light to stimulate our biological system.
“According to our study, however, the situation in schools can be changed rapidly by the conscious delivery of daylight, which is saturated with short-wavelength, or blue, light,” reports Dr. Figueiro.
First Field Study
Dr. Figueiro’s research, sponsored by the U.S. Green
Building Council and in part by a grant from a Trans-National
Institutes of Health Genes, Environment and Health Initiative
is the first field study to measure the impact of reduced
morning blue light exposure on evening melatonin onset of
teenagers attending school.
According to Dr. Figueiro, the results of this field study are significant because they validate controlled laboratory findings with actual field measurements of light that impact our biological system.
The field experiment was conducted at Smith Middle School in Chapel Hill, North Carolina, a school with good daylight design. The school building has south-facing skylights to deliver daylight to nearly all interior spaces throughout the day.
The study detailed in Neuroendocrinology Letters is part of a larger study where data on students was collected at both Smith Middle School in Chapel Hill, North Carolina, as well as Algonquin Middle School in Averill Park, New York.
The larger study is examining not only the impact of removing morning blue light, but also the seasonal impact and the increased evening light exposure during the spring months on teens’ melatonin onset and sleep times.
Implications for School Design
Throughout her research, Dr. Figueiro has repeatedly
come face-to-face with the enormous concern of parents over
teenagers going to bed too late. “Our findings pose two
questions: “How will we promote exposure to morning light and
how will we design schools differently?” says Dr. Figueiro.
The study findings should have significant implications for school design. “Delivering daylight in schools may be a simple, non-pharmacological treatment for students to help them increase sleep duration,” concludes Dr. Figueiro.
Light Therapy Can Reduce Health Risks of Shift
Workers and Alzheimer’s Patients
The new research has applications for more than 3
million shift workers and Alzheimer’s patients who suffer from
lack of a regular sleep pattern.
Studies have shown that this lack of synchronization between a shift worker’s rest and activity and light/dark patterns leads to a much higher risk of cardiovascular disease, diabetes, seasonal depression and cancer over decades.
As evidenced in prior studies by Dr. Figueiro, light therapy can also be used to improve sleep in Alzheimer’s patients, who usually display uneven sleep patterns. “By removing light at certain times of day, and giving light at other times, you can synchronize the sleep/wake patterns of Alzheimer’s patients with the light/dark pattern, providing them with more consolidated sleep,” says Dr. Figueiro.
Interviews with Mariana Figueiro, Ph.D., Assistant Professor at the Rensselaer Polytechnic Institute’s Lighting Research Center are available.
For TV Producers: B-roll is also available.
Web site: www.lrc.rpi.edu
Contact: Mary Cimo
Phone: (518) 687-7174
E-mail: cimom@rpi.edu