Full-spectrum light therapy is often recommended over antidepressants for Continue reading
Humans are adapted to sunlight as a complex stimulus that helps keep your body healthy. Exposure to the 1500 wavelengths in sunlight enables your body to react in a balanced and beneficial way Continue reading
Virtually every organ in your body has its own circadian clock, and to keep them all in sync, you need to keep a regular waking and sleeping schedule that is linked to the rising and setting of the sun Continue reading
The ancient practices of phototherapy and chromotherapy are gaining momentum as valid science. Researchers are now able to study how light and color not only affect psychological behavior, but also physiological systems of the body. An article in The New York Times explores how color and light influence well-being in a variety of circumstance; from prison cells to neonatal units, Continue reading
Each year, phytoplankton blooms known as “red tides” kill millions of fish and other marine organisms and blanket vast areas of coastal water around the world. Though the precise causes of red tides remain a mystery, a team of researchers in the United States and Spain has solved one of the main riddles about these ecological disasters by uncovering the specific mechanism that triggers phytoplankton to release their powerful toxins into the environment.
“Previous theories about how phytoplankton release toxins proposed a rather awkward, untested ‘exudation’ mechanism,” said researcher Pedro Verdugo of the University of Washington in Friday Harbor. “The true mechanism has been a very exciting riddle to crack and it provides a handle on understanding the development of huge phytoplankton blooms, eventually affecting several square miles of the ocean’s upper surface.”
Verdugo and his colleagues, Continue reading
In addition to food, water, and air, sleep is the one thing we truly can’t live without. But experts say more and more women are falling short on shut-eye, and staring at the ceiling all night isn’t just frustrating—it can also be life threatening. Studies show that one in six fatal car accidents are caused by sleep-deprived drivers, and according to the National Sleep Foundation (NSF), the 40 million Americans who now suffer from sleep disorders are at higher risk for a slew of serious health issues. Here, what’s behind the insomnia epidemic, plus fast-acting solutions for getting quality sleep.
The Vitamin Z Deficiency Continue reading
TROY – Teenagers’ morning drowsiness is often caused by out-of-tune body clocks, in a condition known as “delayed sleep phase syndrome.” Scientists now say that timing exposure to blue light — avoiding it during the first two hours of being wake, then getting a good dose of it — can help restore the sleep cycle, so teens feel sleepy earlier at night and are more awake in the morning.
Teenagers are notorious for staying up late, hitting the snooze button and always running late. Now, however, new research shows they can adjust to a schedule simply by sitting in front of a light.
The 16-year-old was diagnosed with delayed sleep phase syndrome. That means
Lighting scientists have found a quick fix to the internal and external alarm clock miscommunication — a blue light. “If you apply the light after your minimum core body temperature, you’re going to advance the clock so you’re going to go to bed earlier and wake up earlier the next cycle,” Figueiro says. The minimum core body temperature is reached about two hours before a person naturally wakes up.
“When you get the teenager up, outdoors, waiting for the school bus at 7 o’clock in the morning, they may be getting light at the wrong phase,” Figueiro says. This exposes teens to natural blue light too early. By wearing the goggles when teens wake up, blue light is blocked out. Then, later in the morning — after their minimum core body temperature is reached — teens can reset their internal clocks by being out in the light.
Blue light exposure worked quickly for
An easy way schools can help is by giving students a quick mid-morning break to go outside or put blue LEDs around computer screens in classrooms. By getting enough blue light at the right time, sleep patterns can not only be changed in teens, but also in the elderly and shift workers.
BACKGROUND: Researchers at Rensselaer Polytechnic Institute are studying how light — especially blue light — affects our body’s daily rhythms. By getting enough blue light at the right time and blocking it out at others, it is possible to correct distorted sleep patters for the elderly (who tend to wake up too early), teenagers (whose internal clock is usually set for late nights and sleep-in mornings), and shift workers.
HOW BODY RYHTHMS WORK: Circadian rhythms are biological cycles in the body that repeat approximately every 24 hours, including the sleep/wake cycle, along with body temperature, hormone levels, heart rate, blood pressure, and pain threshold. The brain has its own internal “pacemaker” that determines when nerve cells fire to set the body’s rhythms, although scientists can’t precisely explain how it does so.
The colors of the light spectrum can affect the body’s rhythm differently, particularly when it comes to sleep patterns. For instance, daylight is dominated by short, visible wavelengths of light that provides a blue visual sensation, like the blue sky. But l how bright the light is, how far away, how long you’re exposed and when you’re exposed to light also have to be considered. Also, we are more likely to sleep soundly in the wee hours of the morning, when our body temperature is lowest, and most likely to awaken when our body temperature starts to rise, usually between 6 AM and 8 AM. As we age, the brain’s “pacemaker” loses cells, changing circadian rhythms, especially sleep patterns. The elderly may nap more frequently, have disrupted sleep, or awaken earlier.
RESETTING THE CLOCK: The RPI researchers developed a method for resetting the internal “master clock” in studies of both teens and the elderly. The scheme removes blue light at certain times (depending on how one wants to “reset the clock”) by wearing orange glasses, followed by exposure to blue light and darkness at nighttime. The key is a distinct, repeated pattern of light and dark.
SLEEP STAGES: Stage 1: drowsiness. Stage 2: light sleep. Stages 3 and 4: deep sleep. Stage 5: Rapid-eye movement (REM) sleep. REM is when people dream, perhaps because the brain is more active and the muscles are relaxed. These five stages occur cyclically; a person may complete five cycles in a typical night’s sleep.