Can Eye Floaters Kill You

Eye Floaters What is Eye Floaters Symptoms and Treatment For Eye Floaters

For us to see the world around us lightenters the front of the eye in passes through the vitreous beforeit's focused on the retina the vitreous is the clear gel like fluidinside the eye the retina is the lightsensitive tissuelining the back of the eye frequently tiny clumps of cells forminside the jail like the Trias the shadows these cons cast on thereading are what we perceive as floaters make an appearance dots circles lines clouds or cobwebs in the field divisionfloaters are more common as we reach

middle age time in our life in the vitreous gel canstart to thicken and shrank forming clumps or strandssometimes the shrinking at the vitreous can create tiny tears in the retina as pulls away from the wall of the I ifthese tears bleed new floaters may appear with flashes thevitreous gel is rubbing or pulling up the retina moving it slightly from its normalposition lining the back of the eye

flashes are flashes a blight that appearin your vision intermittently and may be noticeable off and on forseveral weeks to months trauma to the eye can often causefloaters and flashes also migraine headaches can causesplashes floaters and flashes can also be caused by retinal detachment seriouscondition requiring immediate attention warning signs have aretinal detachment are flashing lights a sudden appearance at noon floatersshadows in the side or prefer if your vision

or gray court moving across repealdivision the symptoms don't always mean you're experiencing a retinal detachmentbut you should see your ophthalmologist right away treatments for a detachedretina very but in general the goal is to return theaffected area of the retina to its correct position at the back of the eye there are several techniques for doingthis for example a flexible band called the scleralbuckle is placed around the eyeball to counteract the force pulling the rightnow out of place

blew it may be drained from under thedetached retina allowing it to settle back into itsnormal position against the back of the eye or a gas bubble may be placed in the eyeto push the right now back in place with pneumatic retina pack see a gasbubble is injected into the vitreous pace inside the eye the bubble pushes the retinal tearclosed against the back wall the I with this procedure the patientmust maintain a certain head position

for several days after surgery the gas bubble willeventually disappear laser or cry or therapy is also added toseal the retinal tear back in place the track to me is a surgery where thevitreous gel that is pulling on the retina is removed from the I and replaced witha gas bubble overtime fluid naturally replaces thisgas bubble in select cases silicon oil is usedinstead of gas

Should You Eat Yourself

Hey, Vsauce. Michael here.And Jake. And Kevin. And we are in Santa Monica, which of course means that the quot;Vquot; in quot;Vsaucequot;will stand for the Roman numeral five, as in five questions from you guys. Our first question comes from quot;@notchquot;. He didn't ask this of me in particular,but I love how nonintuitive the answer is.Assume

an Earth that's perfectly spherical and a rope, stretched around the equator snugly. What would happen if that rope was just,say, six meters longeré Six meters isn't very much, but because of the relationshipbetween a circumference and a radius, six meters of extra rope would allow theentire rope to not fit snugly around the earth,

but one meter above it, all the way around. That's cool, but what if instead of a rope we used something more rigid, like a structure, a bridge and we built the bridge all the way around the Earth. And then, all at once, destroyed its supports. Would it floatéClearly the earth's gravity would pull the structure down,

but down is in the opposite directionfor the other side of the bridge. Well, it turns out such a scenario would be incrediblyunstable. Earth's gravity isn't equal everywhere, and if you follow @tweetsauceyou saw some great graphs showing just how much gravity changes, simply based on the density of rock below. When you factor in the Sun and the Moon,you wind up with a bridge structure that is not gonna stay where it is.If the bridge itself was indestructible, it would start

violently hula hooping around theearth, crushing things. But there's no known material strong enough to do that.Instead, you would wind up with bridge pieces flying everywhere. A sphere around the earth would be a bitmore stable, but a ringé Not so much. The ring, even if spinning, would rapidlybreak apart into smaller pieces. Last week you guys asked me a questionthat I have always wondered. Let's say I was stranded in themountains, waiting for rescuers to arrive,

but it was going to take a while.I had plenty of snow and plenty of water, but I was hungry dying of starvation would it make sense to amputate one of my legs and eat itéI mean,

Are Blue Eyes Endangered

Despite the apparent prevalence of the traitamong swanky crooners and British spies and creepy old creatures who just hung onto thering for too long, only about 8% of the world's human population has blue eyes. Here in theU.S. it's about twice that, but that's still a lot less than it was at the turn of thetwentieth century when nearly half of all Americans had the trait. So what happenedéAre blueeyed humans going the way of the dodoé Well, no. We cleared up that rumor about redheadsgoing extinct; the same goes for blue eyes. While the trait is becoming more rare, it'sunlikely it will disappear all together. Which

is crazy when you consider that 10,000 yearsago blue eyes didn't even exist. In fact, there's a good chance that blueeyed peoplemay all share one common ancestor. Studies over the past decade have actually tracedthe trait to a mutation that most likely arose among browneyed people in a single humanin the Black Sea region of southeastern Europe between 6,000 and 10,000 years ago. The mutation affected what's known as theOCA2 gene, which helps our bodies produce melanin, the brownish pigment that gives colorto our hair and eyes and skin. The mutation created kind of a dimmer switch for the pigmentation,but it didn't affect the entire gene. Instead,

it only affected the production of melaninin the iris, the ring structure around the eye that regulates how much light gets in. The bulk of the iris is a thick layer of melaninproducingcells called the stroma. And the OCA2 mutation turns the production of melanin in the stromaway down, but the pigmentation still shows up elsewhere, like in the hair and skin andother parts of the iris. Basically, the mutation keeps the stroma from being brown. So why blue thené Well, strictly speaking,blue eyes aren't actually blue. Instead, in people with this mutation, the stroma is fullof nearly colorless cells. And when the light

strikes them, they scatter the wavelengthsback out, in a process similar to what makes smoke or fog look blue when light passes throughthem. If there is some yellowish pigment in thestroma, then the blue light will combine with that to make green. Throw in a little bitof brown, and you have hazel. So how did we go from having no blueeyedpeople, to hundreds of millions of them in less than 10 millenniaé No one's entirelysure why the trait spread so quickly through Europe. Some scientists think the mutationcould have helped prevent certain eye disorders related to long, dark northern winters.

But another factors appears to be that, forwhatever reason, lots of blueeyed people simply mated with other blueeyed people inthe past, which kept the trait in circulation. Because for each of your genes, you have twodifferent versions, called alleles, one from your father and one from your mother. If youhave at least one dominant allele for a gene, that's the trait you have. The blue eyes come from a recessive allele,which means if you inherit one allele for blue eyes and another for brown, you're goingto have brown eyes. But you still carry the recessive blue allele, which can be passedon. Which means that that first person that

had that blueeyed mutation didn't have blueeyes. They had to pass that onto their children, and their children had to pass it onto theirchildren, until eventually they came back together to make someone with two blueeyedalleles. When both parents have blue eyes, they bothhave two recessive blueeyed genes, which means their children will also have blue eyessince there's no dominant gene to mask the recessive one. This is how you end up withScandinavian countries that are 95% blueeyed, and it also explains why the percentage ofblue eyeers is dropping in much of the western world.

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