Staring at your smartphone or tablet screen when you should be sleeping could be making you DEPRESSED, scientists claim
- Blue LED light from smartphones, tablets and laptops can harm the eye’s retina
- Scientists have identified a neural ‘depressive’ pathway triggered by blue light
- About two hours of blue light at night for weeks can cause depressive behaviour
- Lab trials suggest blocking brain signals triggered by light can alter this however
Staring at your phone screen when you should be sleeping can make you depressed over time, new research suggests.
Chinese experiments suggest harmful blue light emissions from your device at night trigger a mysterious neural mechanism, leading to behavioural changes.
The research team found that mice exposed to blue light for two hours a night over a few weeks started showing depressive-like behaviour.
But by blocking brain signals that are triggered by blue light at night, the mice no longer showed behavioural changes.
The neural pathway responsible for this phenomenon may provide insight into how exposure to excessive light at night time affects humans.
Artificial sources of blue light include fluorescent bulbs, LEDs, flat screen LED televisions, computer monitors, smart phones and tablet screens.
An obsession with smartphones and increased exposure to this artificial light has disrupted natural sleeping patterns, which may result in psychological problems.
Excessive light exposure at night—from light pollution or electronic devices—has been associated with depressive symptoms
‘Besides generating vision, light modulates various physiological functions, including mood, the research team said in Nature Neuroscience.
‘We showed that light-at-night induced depressive-like behaviours without disturbing the circadian rhythm.
‘These findings may be relevant when considering the mental health effects of the prevalent night-time illumination in the industrial world.’
While light therapy applied in the daytime is known to have anti-depressive properties, excessive light exposure at night has been associated with depressive symptoms, the team claim.
If light activates the same pathway in humans as in mice, this could explain why exposure to excessive night-time light is associated with depressive symptoms
ARE YOU ADDICTED TO YOUR SMARTPHONE?
If you answer yes to the majority of the researchers’ questions, below, you might use your phone too much.
- Do friends or relatives complain about excessive use?
- Do you have problems concentrating in class or at work due to smartphone use?
- Do you feel fretful or impatient without your smartphone?
- Do you feel the amount of time you are on it has increased over time?
- Are you missing work due to smartphone use?
- Are you experiencing physical consequences of excessive use, such as light-headedness or blurred vision?
Light pollution is common in modern cities and sunset is no longer regarded as a ‘signal for the end of the day’.
Rather, humans commonly experience an ‘over-illuminated night life’, which has raised concerns regarding detrimental biological impacts, such as on mood – heralding a new scary dystopian future heavy with artificial light.
Exposure to what the researchers call excessive ‘light-at-night, otherwise known as ‘LAN’, commonly comes from the use of electronic devices such as mobile phones or tablets or a ‘sky-glow’ from illuminated buildings in big cities.
Both of these modern phenomena have been shown to cause depressive symptoms in humans, but the neural mechanisms underlying this effect of night-time light are unknown, the researchers say.
To learn more, the team at Hefei University in China gave mice two-hour doses of blue light at night for three weeks in chambers in the lab.
The authors observed that it took up to three weeks for the animals to progressively develop depressive-like behaviour – as measured by reduced escape behaviour and decreased preference for sugar.
These behaviours could last for at least an additional three weeks following the end of the experiment, they report.
In particular, the team identified a neural pathway that could explain these result – a connection between a specific type of light receptor in the retina to two brain areas: the dorsal perihabenular nucleus and the nucleus accumbens.
Blocking the connection between these two areas prevented the behavioural changes induced by night-time light.
The authors also found that light exposure at night activated this pathway much more strongly than light during the day, which may explain why daytime light exposure did not cause behavioural changes.
Mice in the lab that were exposed to two hours of blue light at night for several weeks showed depressive-like behaviour – as measured by reduced escape behaviour and decreased preference for sugar
The pathway preferentially conducts light signals at night, thereby mediating LAN-induced depressive-like behaviours.
If light activates the same pathway in humans, these findings could explain why exposure to excessive night-time light is associated with depressive symptoms, the authors conclude.
They also add that depressive symptoms from LAN exposure were unlikely to be a byproduct of the compromised circadian rhythm.
Circadian rhythms in mammals are a natural, internal process that regulates the sleep-wake cycle independent of light and dark – which explains why we get jetlag.
‘It is plausible that although light regulates activities and the sleep/wake cycle in opposite directions in diurnal versus nocturnal animals, when light appears during the “wrong” circadian phase, it may cause depressive-like behaviours in both nocturnal and diurnal animals, the team said.
BLUE LIGHT: POSITIVE AND NEGATIVE EFFECTS
Short-wavelength, high-energy blue light scatters more easily than other visible light and can contribute to eye strain and serious eye issues
Blue light is part of the visible light spectrum – what the human eye can see.
Vibrating within the 380 to 500 nanometer range, it has the shortest wavelength and highest energy.
About one-third of all visible light is considered high-energy visible, or ‘blue’, light.
Sunlight is the most significant source of blue light. Artificial sources of blue light include fluorescent light, compact fluorescent light (CFL) bulbs, LEDs, flat screen LED televisions, computer monitors, smart phones and tablet screens.
Blue light boosts alertness, helps memory and cognitive function, and elevates mood, and can help regulate the circadian rhythm, the body’s natural wake and sleep cycle.
Blue light boosts alertness, helps memory and cognitive function, and elevates mood.
However, since the eye is not good at blocking blue light, nearly all visible blue light passes through the front of the eye (cornea and lens) and reaches the retina, the cells that convert light for the brain to process into images.
Continued exposure to blue light over time could damage retinal cells and cause vision problems such as age-related macular degeneration.
It can also contribute to cataracts, eye cancer and growths on the clear covering over the white part of the eye.
Short-wavelength, high-energy blue light scatters more easily than other visible light.
Because computer screens and digital devices emit a lot of blue light, this unfocused visual ‘noise’ reduces contrast and can contribute to digital eye strain
Source: UC Davis
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