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Can Screens Damage Your Eyes?
YouTube: | https://youtube.com/watch?v=4z0JvFa9lx8 |
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View count: | 461,754 |
Likes: | 15,905 |
Comments: | 1,517 |
Duration: | 03:45 |
Uploaded: | 2018-11-29 |
Last sync: | 2024-11-13 02:45 |
Citation
Citation formatting is not guaranteed to be accurate. | |
MLA Full: | "Can Screens Damage Your Eyes?" YouTube, uploaded by SciShow, 29 November 2018, www.youtube.com/watch?v=4z0JvFa9lx8. |
MLA Inline: | (SciShow, 2018) |
APA Full: | SciShow. (2018, November 29). Can Screens Damage Your Eyes? [Video]. YouTube. https://youtube.com/watch?v=4z0JvFa9lx8 |
APA Inline: | (SciShow, 2018) |
Chicago Full: |
SciShow, "Can Screens Damage Your Eyes?", November 29, 2018, YouTube, 03:45, https://youtube.com/watch?v=4z0JvFa9lx8. |
You might have heard that exposure to unnatural lights from digital devices can hurt your eyes. But is that true?
Hosted by: Stefan Chin
SciShow has a spinoff podcast! It's called SciShow Tangents. Check it out at https://www.scishowtangents.org
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Support SciShow by becoming a patron on Patreon: https://www.patreon.com/scishow
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Dooblydoo thanks go to the following Patreon supporters: rokoko, Alex Hackman, Andrew Finley Brenan, Lazarus G, Sam Lutfi, D.A. Noe, الخليفي سلطان, Piya Shedden, KatieMarie Magnone, Scott Satovsky Jr, Charles Southerland, Patrick D. Ashmore, charles george, Kevin Bealer, Chris Peters
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Sources:
http://pubs.rsc.org/en/Content/ArticleLanding/2017/IB/c7ib00032d#!divAbstract
http://www.molvis.org/molvis/v15/a205/
https://iovs.arvojournals.org/article.aspx?articleid=2123554
http://mellerio.org.uk/vision/chapt116.pdf
https://www.nature.com/articles/eye2015261.pdf
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4734149/
https://www.reuters.com/article/us-health-eyes-blue-light-idUSKCN0V727H
https://www.theguardian.com/lifeandstyle/2018/may/28/blue-light-led-screens-cancer-insomnia-health-issues
https://bmjophth.bmj.com/content/3/1/e000146
https://www.sciencedaily.com/releases/2017/08/170822103434.htm
https://onlinelibrary.wiley.com/doi/pdf/10.1111/opo.12406
https://www.icnirp.org/cms/upload/publications/ICNIRPVisible_Infrared2013.pdf
https://www.mayoclinic.org/diseases-conditions/eyestrain/symptoms-causes/syc-20372397
Image Sources:
https://en.wikipedia.org/wiki/Visible_spectrum#/media/File:Linear_visible_spectrum.svg
Hosted by: Stefan Chin
SciShow has a spinoff podcast! It's called SciShow Tangents. Check it out at https://www.scishowtangents.org
----------
Support SciShow by becoming a patron on Patreon: https://www.patreon.com/scishow
----------
Dooblydoo thanks go to the following Patreon supporters: rokoko, Alex Hackman, Andrew Finley Brenan, Lazarus G, Sam Lutfi, D.A. Noe, الخليفي سلطان, Piya Shedden, KatieMarie Magnone, Scott Satovsky Jr, Charles Southerland, Patrick D. Ashmore, charles george, Kevin Bealer, Chris Peters
----------
Looking for SciShow elsewhere on the internet?
Facebook: http://www.facebook.com/scishow
Twitter: http://www.twitter.com/scishow
Tumblr: http://scishow.tumblr.com
Instagram: http://instagram.com/thescishow
----------
Sources:
http://pubs.rsc.org/en/Content/ArticleLanding/2017/IB/c7ib00032d#!divAbstract
http://www.molvis.org/molvis/v15/a205/
https://iovs.arvojournals.org/article.aspx?articleid=2123554
http://mellerio.org.uk/vision/chapt116.pdf
https://www.nature.com/articles/eye2015261.pdf
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4734149/
https://www.reuters.com/article/us-health-eyes-blue-light-idUSKCN0V727H
https://www.theguardian.com/lifeandstyle/2018/may/28/blue-light-led-screens-cancer-insomnia-health-issues
https://bmjophth.bmj.com/content/3/1/e000146
https://www.sciencedaily.com/releases/2017/08/170822103434.htm
https://onlinelibrary.wiley.com/doi/pdf/10.1111/opo.12406
https://www.icnirp.org/cms/upload/publications/ICNIRPVisible_Infrared2013.pdf
https://www.mayoclinic.org/diseases-conditions/eyestrain/symptoms-causes/syc-20372397
Image Sources:
https://en.wikipedia.org/wiki/Visible_spectrum#/media/File:Linear_visible_spectrum.svg
[ ♪INTRO ].
If you’re watching this video, you probably spend a lot of time around digital screens. Like right now, for example.
And unless you’re watching this far in the future after we’ve had some sort of apocalypse, there are screens all around us. So of course, a lot of people are worried that exposure to all this unnatural light is harmful. But can digital screens really hurt you?
Well, at the very least, they can can cause temporary annoyances like headaches. But the research is still out on permanent damage. If you stared at a screen for too long, you may find yourself feeling what’s known as digital eye strain, or computer vision syndrome.
The most common symptoms are blurred vision, headache, and pain in the neck and shoulders. Unfortunately, even though we know it’s connected to spending a bunch of time looking at a screen, there are a bunch of potential causes — from screen viewing making you blink less often and squint more, to it affecting your pupil response time, to it exposing you to more blue light. Or people could be suffering from digital eye strain because they don’t have the right lens prescription, or one that doesn’t take into account astigmatism.
Basically, there’s no one cause. Luckily, the symptoms of digital eye strain go away when you give your eyes a proper rest, and studies haven’t shown any long-term effects even if you suffer from it regularly. And if you want to avoid that pain in the first place, doctors recommend you take a 20 second break from your screen every 20 minutes, staring off at an object 20 feet away.
Still, there might be another way screens could harm you, and that’s through exposure to blue light that can kill cells in your eyes. The color of blue light comes from its short wavelength, which also means it has high energy — enough that blue light can damage and eventually kill the cells in your eye’s retina. The light reacts with certain molecules, knocking off bits of them and creating reactive oxygen species, or ROSes, which will bond with almost anything.
They can cause so much damage that cells eventually destroy themselves in a process called apoptosis. We know this happens because researchers have done a lot of experiments — not directly on human eyes, of course, but on animal models like rats or human retinal cells grown in petri dishes. The thing is, most of those studies focus on high-intensity light from LED lamps, and sometimes expose the subjects to that light for day-long lengths of time.
So even though we know that high intensity blue light definitely causes retinal cell death, it doesn’t tell us much about the real-life dangers of screens. There was one 2017 study that looked at the effects of low intensity blue light at three different wavelengths emitted from common types of screens. Specifically, they found that blue light at 449 nanometers caused the largest increase in those harmful ROSes.
But light with a slightly longer wavelength of 470 nanometers didn’t do much damage. That 21-nanometer change in wavelength might not seem like a lot, but the difference means the two colors of light have different amounts of energy. The 470 nanometer light, which was a sort of turquoise, just didn’t have enough energy to effectively break apart molecules.
This suggests we’d do well to decrease the amount of shorter wavelength blue light from our screens if we want to save our eyeballs. But don’t shut your eyes just yet, because it ignores one major comparison: daylight. Look anywhere on a clear day and you’ll see a lot of blue.
And that blue light is way more intense than what you get from staring at a computer screen. A paper published in 2016 looked at the amount of light — both in general and in the blue part of the spectrum — from a range of electronic screens and compared it against the amount of blue light you’d be exposed to from simple daylight. Its conclusion?
The blue light from devices like laptops and smartphones, quote, does “not represent a biohazard, even for long-term viewing.” So go ahead and watch as many more SciShow videos as you want. We’re officially non-hazardous! And in the meantime, thanks for watching this episode of SciShow, and thanks especially to our community on Patreon for making this show possible.
We have a whole team working to bring you amazing facts and answer fascinating questions every day of the week, and we wouldn’t be able to do any of this without your support. And if you’re not yet a patron and interested becoming one, just check out patreon.com/scishow to learn more. [ ♪OUTRO ].
If you’re watching this video, you probably spend a lot of time around digital screens. Like right now, for example.
And unless you’re watching this far in the future after we’ve had some sort of apocalypse, there are screens all around us. So of course, a lot of people are worried that exposure to all this unnatural light is harmful. But can digital screens really hurt you?
Well, at the very least, they can can cause temporary annoyances like headaches. But the research is still out on permanent damage. If you stared at a screen for too long, you may find yourself feeling what’s known as digital eye strain, or computer vision syndrome.
The most common symptoms are blurred vision, headache, and pain in the neck and shoulders. Unfortunately, even though we know it’s connected to spending a bunch of time looking at a screen, there are a bunch of potential causes — from screen viewing making you blink less often and squint more, to it affecting your pupil response time, to it exposing you to more blue light. Or people could be suffering from digital eye strain because they don’t have the right lens prescription, or one that doesn’t take into account astigmatism.
Basically, there’s no one cause. Luckily, the symptoms of digital eye strain go away when you give your eyes a proper rest, and studies haven’t shown any long-term effects even if you suffer from it regularly. And if you want to avoid that pain in the first place, doctors recommend you take a 20 second break from your screen every 20 minutes, staring off at an object 20 feet away.
Still, there might be another way screens could harm you, and that’s through exposure to blue light that can kill cells in your eyes. The color of blue light comes from its short wavelength, which also means it has high energy — enough that blue light can damage and eventually kill the cells in your eye’s retina. The light reacts with certain molecules, knocking off bits of them and creating reactive oxygen species, or ROSes, which will bond with almost anything.
They can cause so much damage that cells eventually destroy themselves in a process called apoptosis. We know this happens because researchers have done a lot of experiments — not directly on human eyes, of course, but on animal models like rats or human retinal cells grown in petri dishes. The thing is, most of those studies focus on high-intensity light from LED lamps, and sometimes expose the subjects to that light for day-long lengths of time.
So even though we know that high intensity blue light definitely causes retinal cell death, it doesn’t tell us much about the real-life dangers of screens. There was one 2017 study that looked at the effects of low intensity blue light at three different wavelengths emitted from common types of screens. Specifically, they found that blue light at 449 nanometers caused the largest increase in those harmful ROSes.
But light with a slightly longer wavelength of 470 nanometers didn’t do much damage. That 21-nanometer change in wavelength might not seem like a lot, but the difference means the two colors of light have different amounts of energy. The 470 nanometer light, which was a sort of turquoise, just didn’t have enough energy to effectively break apart molecules.
This suggests we’d do well to decrease the amount of shorter wavelength blue light from our screens if we want to save our eyeballs. But don’t shut your eyes just yet, because it ignores one major comparison: daylight. Look anywhere on a clear day and you’ll see a lot of blue.
And that blue light is way more intense than what you get from staring at a computer screen. A paper published in 2016 looked at the amount of light — both in general and in the blue part of the spectrum — from a range of electronic screens and compared it against the amount of blue light you’d be exposed to from simple daylight. Its conclusion?
The blue light from devices like laptops and smartphones, quote, does “not represent a biohazard, even for long-term viewing.” So go ahead and watch as many more SciShow videos as you want. We’re officially non-hazardous! And in the meantime, thanks for watching this episode of SciShow, and thanks especially to our community on Patreon for making this show possible.
We have a whole team working to bring you amazing facts and answer fascinating questions every day of the week, and we wouldn’t be able to do any of this without your support. And if you’re not yet a patron and interested becoming one, just check out patreon.com/scishow to learn more. [ ♪OUTRO ].