Lighting for your health and wellness

The science of light

Healthe is the technology leader in developing and deploying lighting solutions that prioritize your health and wellness in the built environment – in homes, offices, schools, healthcare facilities, senior living communities, and more. Using light as the platform, our products improve air quality, combat the spread of disease, and help regulate your body’s circadian clock, boosting performance and enhancing sleep.

Circadian light

Light is the most powerful time cue for our circadian rhythm, the 24-hour internal clock that regulates the sleep/wake cycle, body temperature and hormone production, all of which are imperative for good health and strong cognitive functioning. But not all light is created equal. Healthe True Circadian™, engineered-spectrum solutions deliver the right light at the right time to help to reduce circadian disruption.

Light as a cue for living things

Light is life. When you think of life on this planet- plants, animals, humans- they are all impacted by light and the cycle of the sun. Light is the oldest input, and a significant nutrient for biological functions throughout the web of life.

Light is the most powerful time cue for our 24-hour circadian clock. It tells us when to wake up, when to get sleepy, when to produce certain hormones and when to lower or raise our temperatures. It regulates our sleep, which is imperative for health and cognitive function, as sleep aids in healing, restoring and rejuvenating the physical body and our mental capacity.

The most impactful wavelength to humans’ biology in the visible spectrum is blue. Within the visible spectrum, 480 nanometers (visibly blue) is most impactful to humans and circadian rhythm regulation, and its presence or absence triggers a multitude of biological responses.

Light as a stimulant

Light has two main effects on alertness. Firstly, light as a stimulant increases alertness and improves performance, depending on its wavelength and intensity. Blue-enriched light (specifically blue light around 480 nanometers, the peak of melanopsin sensitivity) and high intensity light directly alerts the brain and can be used at times when alertness and productivity need to be heightened; for example, during daytime or at work.

Light has a second effect on alertness via its impact on our 24-hour circadian clock. Alertness and performance rhythms are strongly regulated by the clock, so when the clock is shifted (e.g. staying up later or waking earlier), the timing of peak alertness and performance shifts accordingly. Maintaining exposure to a stable light-dark cycle (bright blue-enriched days and dark nights, and a habitual sleeping pattern) is needed to maintain good circadian entrainment, including alertness and performance patterns.

Light for sleep

Before sleep, however, these alerting effects need to be minimized, otherwise it will be harder to fall asleep and the quality and depth can be compromised. Exposure to blue-depleted and dimmer light is therefore recommended for as long as possible before sleep. (See our GoodNight® and Sleepy Baby® products)

Sleep and its impact on health

Sleep is vital for good health. In the short-term, poor sleep leads to sleepiness, fatigue and poor performance, which can impact safety and performance at work or while driving. The American Academy of Sleep Medicine recommends a minimum of 7 hours per night in adults, although often people need more to maintain optimal performance. Sleep should be prioritized each and every night, as it’s very hard to ‘catch-up’ on sleep, even on weekends.

Longer-term, sleep deficiency has been linked to an increased risk of high blood pressure, heart disease, stroke, diabetes and some types of cancer. There is also a strong relationship between poor sleep and mental health, including the risk of depression. These risks are exacerbated in individuals who routinely sleep poorly, for example in shift workers; and the World Health Organization has designated shiftwork that causes circadian desynchrony a ‘probable carcinogen’. Sleep should be considered one of three pillars of good health, along with diet and exercise, and should be prioritized as part of a healthy lifestyle.

Components of light that impact health

While multiple factors play a role in the biological impacts of a light source, the spectrum (wavelength) and intensity (brightness level) are the most important components. Increasing the blue content, especially around 480nm, of white light as well as increasing intensity will improve the alerting impacts of light. Daylight, for instance, induces a high level of alertness response given the combination of both its blue content and high intensity. Achieving alertness responses indoors oftentimes requires altering the specific type of light and the indoor light levels to increase blue content or increase intensity. This has potential to alter the health benefits of the light you are exposed to in indoor environments.

Circadian lighting for health

Circadian Lighting uses these natural components of light to improve performance, alertness, energy levels, mood, sleep and overall wellbeing and health through the built environment. Circadian lighting also factors in timing and use case to ensure that occupants of a space are getting the right light at the right time, and the lighting is fit for the intended biological purpose. When occupants want energy and focus, such as in office spaces or during the day in homes, 480-enriched circadian lighting should be used to mimic the natural output of the sun. Where and when occupants should be getting ready for rest, for instance in bedrooms or for general lighting in the evenings, 480-depleted lighting should be used, simulating sundown and the transition into night.

Circadian lighting offers a return to nature’s rhythms, using spectrum, intensity and timing to help regulate circadian systems for healthy sleep/wake cycles and overall wellbeing.

Scientific support

The effects of spectral tuning of evening ambient light on melatonin suppression, alertness and sleep

Authors: Shadab A. Rahman, Melissa A. St. Hilaire, Steven W. Lockley

This study compared sleep data & neurological correlates of stimulus of those exposed to standard fluorescent lighting versus blue-depleted LED light and demonstrates that spectral tuning of LEDs can have non-visual biological impacts on melatonin production, alertness and sleep. Decreasing exposure to blue wavelengths (namely in the 470-500nm range) reduces melatonin suppression and incites sleepiness symptoms such as slower response time.

The effects of spectral tuning of evening ambient light on melatonin suppression, alertness and sleep

Authors: Shadab A. Rahman, Eileen McNeely, Ariane Dumas, Gale Tedhams, Steven W. Lockley

This study compares typical fluorescent light to blue-enriched LEDs in a work space, using self-reporting surveys from office workers on mood, alertness, eye strain and headaches. Under blue-enriched LED lighting, survey participants reported less eye-strain, greater feelings of general well-being, more engagement (energy and focus), and better sleep overnight, supporting the application of blue-enriched LED lighting in 9-5 facilities, such as office, work and educational spaces.

Understanding the metrics

Our current standard of measuring light is focused on illuminance (lux), which intends to estimate the visual (photopic) effects of light. However, non-visual (melanopic) effects can in fact be measured. As light is a stimulant, and certain properties provide more stimulating effects than others, it is those properties that circadian lighting technology seeks to manipulate for desired effects. These effects are measured in what we call an m/p ratio (melanopic/photopic ratio), and lighting manufacturers present this information in a decimal form, for instance, 0.3 or 0.9. The lower the decimal, the better that light is for evening hours before sleep. The higher the decimal, the greater that light’s effect is on your biological system, meaning you’ll want a higher value for alerting effects during the day.

CCT

Corelated Color Temperature

This is measured in Kelvin and tells how warm or cool the light is. A higher temperature means a cooler, more bluish light. A lower temperature will be a warmer light, and will look more yellow. Color-tuning products use CCT to determine if a light is good for day or night, but it is not an accurate means to determine biological impact.

Lumens

The Brightness of Light

The intensity of light for LEDs is sometimes measured through a comparison unit: equivalent watts. In traditional lighting, the wattage was directly related to light output, so LED lighting uses ‘equivalent watts’ for familiarity, but wattage is no longer reliable for determining how bright a light can be, because LEDs are much more energy efficient. The intensity of light is relevant to the m/p ratio, in that a brighter light will have a higher biological impact, offering more alerting effects.

CRI

Color Rending Index

This is how well a light source renders colors. A high CRI is helpful to see colors and contrast, leading to higher visual acuity. Depending on the types of wavelengths that make up a light, colors will look different, and certain ones will ‘pop’ under different light sources. For crisp, clean light, and true color visibility, a high CRI of 90 or above should be sought.

M/P Ratio

Melanopic/photopic ratio

This is a measurement that demonstrates a lamp’s biological impact. The lower the decimal (i.e. .34 or less) the better the lamp is for light before sleep. The higher the decimal (over .90) the better that lamp is for alertness and daytime use. While color tuning products use CCT, for true biological lighting, look for the m/p ratio.

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